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\documentclass[12pt,a4paper]{article} \usepackage{geometry} \newgeometry{ top = 2cm, bottom = 2cm, outer = 2cm, inner = 2.5cm,} \usepackage[latin1]{inputenc} \usepackage{amsmath} \usepackage{amsfonts} \usepackage[numbers,sort&compress]{natbib} \usepackage{amssymb} \usepackage{makeidx} \usepackage{graphicx} \usepackage[version=4]{mhchem} \usepackage{hyperref} \hypersetup{ colorlinks = true, urlcolor = violet, linkcolor = blue, citecolor = red } \title{\textbf{STUDY THE FREQUENCY MAGNITUDE DISTRIBUTION AND CALCULATE b- VALUE FOR EARTHQUAKE IN NEPAL} \author{A Term Paper \\ \\ \textbf{Submitted to} \\ \textbf{Department of Physics Patan Multiple Campus Patandhoka } \\\textbf{Lalitpur, in the partial fulfillment for the} \\\textbf{requirement of master degree of science in Physics}}} \date{} \begin{document} \begin{titlepage} \maketitle \thispagestyle{empty} \begin{figure}[h] \centering \includegraphics[scale=0.6]{Tu.png} \label{tulogo} \end{figure} \vspace{2cm} \large \centering\textbf{by:}\\\dots \dots \dots \dots \dots \dots \dots \dots \dots \large \vspace{0.5cm} \textbf{Hemraj Bhattarai} \\ Reg. No: 5-2-37-730-2012\\ Symbol No. : PHY (1708-073) \\\vspace{2cm} \centering September, 2019 \pagebreak \end{titlepage} \begin{figure}[h] \centering \includegraphics[scale=0.6]{Tu.png} \label{tulogo} \end{figure} \begin{center} \large\bf {Recommendation} \end{center} {It is certified that Mr. Hemraj Bhattarai has carried out the term paper entitled \textbf{"STUDY THE FREQUENCY MAGNITUDE DISTRIBUTION AND CALCULATE b- VALUE FOR EARTHQUAKE IN NEPAL"} under my Guidance. I recommend the project work in the partial fulfilment for the requirement of Master's Degree of Science in Physics. \vspace{7cm} \vspace{4cm} \noindent \begin{center} \begin{tabular}{l} ................................................ \\ \\ Prof.Dr.~Shankar Prasad Shrestha \\ Department of Physics\\ Patan  Multiple Campus, Patandhoka\\ Lalitpur, Nepal\\ \noalign{\bigskip} Date: .............................\\ \end{tabular} \end{center} \pagenumbering{roman} \pagebreak \begin{center} \large\bf {Evaulation:} \end{center} \vspace{4cm} \noindent We certify that we have read this project work and in our opinion, it is good in the scope and quality as term paper in partial fulfilment for the requirements of Master's Degree of science in Physics. \\ \\ \\ \begin{center} \large\bf {Evaluation Committee}\\ \end{center} \begin{center} \begin{tabular}{l} \noalign{\bigskip} \hspace{0.7cm}........................................... \\ \\ \hspace{0.4cm} ~Prof.Dr.~Shankar Prasad Shrestha \\   \hspace{0.5cm} Department of Physics\\ \hspace{0.5cm} Patan Multiple Campus, Patandhoka\\ \hspace{0.5cm} Lalitpur, Nepal\\ \noalign{\bigskip} \hspace{0.5cm} Date: .............................\\ \end{tabular} \end{center} \vspace{3cm} \noindent................................................... \hspace{3.1cm}...................................................\\ \vspace{0.4cm} \noindent\textbf{{\large Assoc.Prof.~Nilmani Regmi \hspace{0.8cm} ~Assoc.~Prof. Dr.~Lekh Nath Mishra}\\ \hspace{5cm}(Coordinator) \hspace{7cm}(Head) \\ \hspace{0.8cm} M.Sc. Program of Physics \hspace{3cm} Department of Physics \\ \hspace{1cm}Patan Multiple Campus \hspace{3.5cm} Patan Multiple Campus\\ \noindent \hspace{1cm} Lalitpur, Nepal \hspace{6.2cm} Lalitpur, Nepal\\\\\\\\\\ \noindent \hspace{1cm} ............................ \hspace{5.5cm} ...............................\\\\ \noindent \hspace{1cm} (External Examiner) \hspace{5cm} (Internal Examiner)} \pagebreak \begin{center} \large\bf {Acknowledgement} \end{center} \vspace{2cm} \noindent I am sincerely and heartily grateful to my Supervisor Prof.Dr Shankar Pd. Shrestha for providing me this research topic. I am also grateful to Prof. Dr. Nillamani Regmi Head of Department of Physics, Patan Multiple campus. I am also thankful to all other Teacher of Department of Physics in Patan Multiple campus and my friends for their valuable contributions and advice. \vspace{8cm} \vspace{4cm} \noindent \begin{tabular}{l} ........................................... \\ \\ Prof.Dr.~Shankar Prasad Shrestha \\ Department of Physics\\ Patan Multiple Campus, Patandhoka\\ Lalitpur, Nepal\\ \noalign{\bigskip} Date: .............................\\ \end{tabular} \pagebreak \begin{center} \large\bf {ABSTRACT} \end{center} The main objective of this research work is to analysis the Earth quake data from 2010 AD to 2019AD. By using the seismic source information and probabilistic earthquake hazard parameters the time change Verses magnitude of the Earthquake can be obtained. The analysis of data interpretation has been done with the help of Q-Basic Program and Ms.Excel Data technique. Maps, graphs and tables of Richter scale magnitude of Earthquakes, time change of Earthquake has been also plotted with the help of ORIGIN5.0. Also Calculated the value of b before and after main suck. In this study the relation of time change with the magnitude of earthquake is studied. Time changes between any two events and their respective magnitude is obtained. There is the no any relation of time with the magnitude is obtained from the date range from 2010AD to 2019AD. The time of earthquake and their respective magnitude is studied. In this study the change in time with higher magnitude from the graph also calculated. \pagebreak \tableofcontents \pagebreak \section {Introduction} Earthquake is a natural process that take place under the beneath of the Earth due to the movement of seismic tectonic plates. It is not only an observational Science but strongly effect the life of each and every living organism on the Earth. The origin of Earthquake is as old as the origin of the Earth, But due to lack of knowledge and scientific instruments it is tremendous challenge for ancient scientists and geophysicists to collect and analysis the Earthquake data. Now a day's science and technology grew up their maturities, collecting and analysis of Earthquake movement is an easy job \cite{1}.\\ \\ Cyclic variations of seismicity possibly provide insights into the physics of earthquake triggering. Seasonal variations have been in particular observed in various contexts and related to factors such as snow loading, precipitation and variations of the water table\cite{1}.\\ \pagenumbering{arabic} Seismic waves travelling through earth carry lot of information regarding valuables buried under the earth crust. These information are useful in many fields of seismology, geological engineering, mining engineering and oil and gases industries etc. Speed of waves depends upon the elastic properties of the medium. They provide us many characteristics i.e. homogeneity or heterogeneity, isotropy or anisotropy and discontinuity present in the medium. On the analysis of the velocities and travel times of P, SV, SH and surface waves, we can explore the possibility of buried beneath the earth crust\cite{2}.\\ \\ An earthquake (also known as a quake, tremor or temblor) is the shaking of the surface of the Earth, resulting from the sudden release of energy in the Earth's lithosphere that creates seismic waves. Quaking or shaking of the earth is a common phenomenon undoubtedly known to humans from earliest times. Prior to the development of strong-motion accelerometers that can measure peak ground speed and acceleration directly, the intensity of the earth-shaking was estimated on the basis of the observed effects, as categorized on various seismic intensity scales. Only in the last century has the source of such shaking been identified as ruptures in the earth's crust, with the intensity of shaking at any locality dependent not only on the local ground conditions, but also on the strength or magnitude of the rupture, and on its distance\cite{3}. \\ \\ The April 25 2015 earthquake in Nepal and the subsequent aftershocks resulted in losses not only in terms of lives and physical infrastructures but also of historical, social, cultural and economic aspects of the country and its population. Thirty-one out of the 75 districts of Nepal were affected by this devastation with 14 of them located in the Central and Western mountains and hills including Kathmandu Valley, and categorized by the Government of Nepal as the most affected. An estimated 5.4 million people live in these 14 districts. \\ \\ In an earthquake, the initial movement that causes seismic vibrations occurs when two sides of a fault suddenly slide past each other. A fault is a large fracture in rocks, across which the rocks have moved. Faults can be microscopic or hundreds-to-thousands of kilometers long and tens of kilometers deep. The width of the fault is usually much smaller, on the order of a few millimeters to meters. \subsection{Frequency and spatial distribution} The frequency magnitude distribution of earthquake between 01 January 2010 and 25 August 2019 can be studied. 

The Gutenberg$-$Richter model obtained by least squares fit to the data . The results indicate that the slope parameter (b-value) is equal to 0.85. This slope is less than 1, which implies a higher rate of occurrence of larger earthquakes than would be implied by a b-value of 1. The estimated b-value is the same as that presented by Adhikari et al. (2015) based on data from 45 days after the mainshock(April 25 2015), but higher than 0.76 as reported by Parajuli (2009) using data between 1100 and 2002\cite{4}. \subsection{Earthquakes away from plate boundaries} Where plate boundaries occur within the continental lithosphere, deformation is spread out over a much larger area than the plate boundary itself. In the case of the San Andreas fault continental transform, many earthquakes occur away from the plate boundary and are related to strains developed within the broader zone of deformation caused by major irregularities in the fault trace (e.g., the "Big bend" region). The Northridge earthquake was associated with movement on a blind thrust within such a zone. Another example is the strongly oblique convergent plate boundary between the Arabian and Eurasian plates where it runs through the northwestern part of the Zagros Mountains. The deformation associated with this plate boundary is partitioned into nearly pure thrust sense movements perpendicular to the boundary over a wide zone to the southwest and nearly pure strike-slip motion along the Main Recent Fault close to the actual plate boundary itself. This is demonstrated by earthquake focal mechanisms\cite{5}. \\ \begin{figure}[h] \centering \includegraphics[scale=0.7] {fig1.png} \caption{Tectonic and paleoseismological background of the 2015 Gorkha earthquake. Thick dashed arrows indicate lateral extension of surface rupture of past great earthquakes\cite{8}.} \label{157} \end{figure} Historical seismicity associated with the Main Himalayan Thrust(MHT) is characterized by infrequent, large megathrust earthquakes that occasionally break the MHT up to its frontal expression along the Main Frontal Thrust (MFT) \cite{6}. Paleoseismology has provided evidence for earthquakes with magnitudes exceeding M8.5 associated with surface ruptures reaching the MFT. However, historical records suggest that large, blind earthquakes do also take place, such as the 1833 earthquake (M7.3 - 7.7) that occurred near Kathmandu\cite{7}. The significance of these blind earthquakes in releasing part of the interseismically accumulated strain is of paramount importance for quantifying slip deficit of the MHT and for assessing associated seismic hazard. \pagebreak \section{Literature Review} [Gao, S. S., P. G.et.al, 2000]Seismicity has been monitored since 1995 from 21 vertical-component, short-period stations, operated by the Department of Mines and Geology (Kathmandu, Nepal) in collaboration with the Laboratoire Detection Geophysique (France). For the analysis presented here [Gao, S. S., P. G.et.al, 2000] have selected the period from 1995 to 2000, during this time\cite{9}the network geometry has not changed, nor has any major earthquake occurred nearby. As reported in previous studies \cite{2}, a large fraction of the seismicity is clustered along a belt following the front of the Himalaya with focal mechanisms indicating thrusting perpendicular to the range. As shown from the modelling of geodetic strain measured from GPS, this seismicity is associated with interseismic stress accumulation around the downdip end of the locked portion of the Main Himalayan Thrust (MHT) fault\cite{2}. Other clusters of seismicity occur farther north and are related to normal events along NS grabens \cite{7}.\\ [Bollinger, L., et al. 2004] restrict our analysis to events located within the band of seismicity beneath the Greater Himalaya. A total of 10569 earthquake event occurred within this area with local magnitudes ranging from $M_L$ = 0 to 6.3. Seismic productivity in the five years investigated exhibits a strong seasonal variation with seismicity rates in winter nearly double those in summer\cite{10}. The magnitude-frequency distribution of events recorded either in summer or in winter. The number of events, N, with magnitude above a given value $M_{L}$ follows approximately the Gutenberg-Richter relationship: \begin{equation} {Log_{10}}N({M\geq{M_L}})=a- b{M_L} \end{equation} with a, b value of 0.81$\pm$ 0.04 \cite{11}. The relationship is obeyed for magnitudes above a completeness magnitude, Mc, which we define here as the magnitude above which the number of events in the catalog is 95 of the number of events anticipated by equation (1). When summertime and wintertime events are considered separately, Mc shows an annual variation between $\sim$ 1.6 in winter and $\sim$ 2.1 in summer. This variation suggests that the Mc basically reflects the detection capacity of the seismic network and is lower in the winter than in the summer due to a higher seismic noise level. The number of events in summer is lower than that in winter at all magnitudes above the detection threshold, up to $M_L$ = 4.0, but with lower statistical significance. In order to test the statistical significance of the observation, generated 10000 random catalogs with the same number of events and the same frequency-magnitude distribution as in the real catalog. [Chen C, Ho C, Correa C.et.al 2010] have then varied the cut-off magnitude and computed the ratio of events occurring in the winter to those occurring in the summer\cite{12}. [Chen C,Ho C 2010]Analyzed seismic data with the help of frequency time analysis technique using a fourth order Butterworth filter to separate different band-pass data\cite{13}. Machado and Lopes [6] have analyzed global seismic data covering the period from 1962 up to 2011.They characterized the events by their magnitude ,location and time. The events are divided into groups either by according to F-E seismic reasons of earth or using a rectangular grid based on latitude and longitude co-ordinates. They developed two mathematical tools namely G-R distributions and mutual information and clustering analysis.Explored the possibility of the techniques to analyze seismic data for development of cost free and easy to use\cite{14}.\\\\ The M 7.8 2015 April 25 Gorkha earthquake devastated the mountainous southern rim of the High Himalayan range in central Nepal [Adhikari.et.al 2015]. The main shock was followed by 553 earthquakes of local magnitude greater than 4.0 within the first 45 days. In this study, we present and qualify the bulletin of the permanent National Seismological Centre network to determine the spatio-temporal distribution of the aftershocks. The Gorkha sequence defines a $\sim$140-km-long ESE trending structure, parallel to the mountain range, abutting on the presumed extension of the rupture plane of the 1934 M 8.4 earthquake\cite{15}. \\ \\ Various aspects of the 2015 Gorkha Earthquake and its aftershocks are presented, and different hypotheses about the nature of long period pulses observed in ground motion record in Kathmandu Valley are critically discussed and reviewed. A comparison between the local magnitude of the earthquakes reported by NSC and moment (or body wave) magnitude reported by USGS showed some interesting results. For earthquakes with an Mw between 4 and 5.5, the local magnitude is found, on average, to be smaller than Mw. This is in contradiction to observations from other parts of the world where, for such small events, these have been found to be approximately the same\cite{16}. \subsection{Concept of an Earthquake} An 'Earthquake' is the tectonic movements to release built-up energy when two earth strata relativejy move in relation to each other along a fault. In geological structuring of the earth, various distinct layers are formed and have fractures (faults), relative inclinations. In certain portion of the earth crust there appears to be a continuous strain movement between earth strata. When the stresses developed by such strain exceed the strength of the earth crust materials, a slip occurs between the two portions of the crust and energy is released causing earthquake.\\ \\ The types of waves produced on account of the release of energy depend somewhat on the location of the origin (earthquake focus). From the focus waves radiate in all directions. At the epicentre (point lying on the earth surface vertically above the focus) the shaking is the most intense. Seismic waves are of three types; (i) P waves, (ii) S waves, and (iii) L or Surface waves. Surface waves are responsible for causing earthquakes and hence damages. \subsection{Objective} The Large number of earthquake data are arranged and study about their relations with time.my Objective of the research work are as follows : \begin{itemize} \item[i] Study the seismic data and relation of time with the Magnitude of the Earthquake. \item[ii] Study the magnitude and calculate difference between two event time in day and nature of graph. \item[iii] Calculate the b value of the cumulative Number(N) and plot the cumulative number with magnitude graph. \end{itemize} \pagebreak \section{Methodology} \subsection{Maximum And Minimum Magnitude} The maximum magnitude of earthquake for each demarcated source zone in the present study was determined based on both historical and instrumental earthquake as well as the largest earthquake that occurred in adjacent potential zones that have a similar geology and tectonic environment. The Himalaya of Nepal has experienced great earthquakes in 2015 ($M_w$ = 7.8). That great earthquake allowed us to determine the expected largest earthquake magnitudes in the Nepal$^{'}$s Himalayan section. In the data source the minimum magnitude and its location and date can be easily handled by using QBasic and Excel program. \subsection{Time change with Magnitude} To calculate the time change(interval between two events) was calculated by the difference between two date of events in days. After analysis of this data, we can easily show the time difference and magnitude. The time variation of the earthquake magnitudes at certain place of can be compared. \subsection{Analysis of seismic Data and It's Source} Excel and QBasic Program is used to analyse the large number of earthquake data. In this we Analyse the date, time, magnitude, latitude, longitude and epicentre were arranged in column by using QBasic program and calculate the change in date. Also calculated the change in time so that we can easily distinguish the earthquake magnitude at certain time change. We can see the time Variation of magnitude. An algorithm used for analysis of seismic data has two phases i.e. mapper phase and reducer phase. In the mapper phase, earthquake data and file-contents assumed as key and value pair. After that authors emitted the magnitude of earthquake having value greater than 8. In the Reducer phase, initialized output result as null value and assigned the values that contained magnitude of earthquake more than 8. Then entered magnitude as key and output as value pair which could show the final results. Researchers have been using computer simulations to better understanding the mechanism of seismic waves to build safer structures to minimize the damage occurred during earthquake. \\ \\ The earthquakes data is found in the seismic data source website (www.seismonepal.gov.np) there are many data ranges from date to date but in this study only data ranges from 2010 to 2019 was taken because the main shocks is happened at 2015 so we want to check the relation of magnitude before and after main shocks. These data can be easily found in the website and can be analysis by using computer programming QBasic and Excel. \pagebreak \subsection{Average annual occurrence rate and b value} The earthquake catalogue of Nepal for the period 2010$-$2019 suggests that the database before 2010 is inadequate to delineate earthquakes with less than surface wave magnitude 4.0. The database utilized here is more complete from 2010, when many earthquake records became available from modern seismic instruments. Earthquakes with a surface wave magnitude equal to or greater than 4.0 from 2010 to 2019 were used to estimate the average annual occurrence rate of earthquakes and b using the frequency magnitude relation (Gutenberg and Richter, 1944) \begin{equation} {Log} N =a- bM \end{equation} where N is the cumulative number of earthquakes with magnitude equal to or greater than the specified magnitude M, and a and b represent the Gutenberg and Richter (G-R) parameters for a particular region. In this study, the estimated b value is 0.85 for the entire region. The frequency magnitude distribution of earthquakes with surface wave magnitude equal to or greater than 4.0 \subsection{Calculation of difference in time with magnitude} Seismicity has been monitored since 1995 from 21 vertical-component, short-period stations, operated by the Department of Mines and Geology (Kathmandu, Nepal) in collaboration with the Laboratory de Detection et de Ge0$-$physique (France). For the analysis presented here we have selected the period from 2010 to 2019, during which time i subtract any two consecutive time and give the interval between the consecutive event of earthquake. To calculate the time change Microsoft Excel Program is used. The date range is set into a column and subtract consecutive date and add first data and second data also calculate the change in time and add to it. Finally date changes vs magnitude is obtained. \pagebreak \section{Result and Discussion} The earthquake of Nepal having larger magnitude $M_L$ = 7.6 and epicentre at gorkha and the magnitude which is less than 4.0 are of many socks after main socks. The Time Variations of the magnitude of 2010 AD to 2019 AD all the data are in one graph is given Below. In the Figure2 there is the variation of magnitude before and after main shock. \begin{figure}[h] \centering \includegraphics[scale=0.4] {1.png} \caption{Plot of magnitude Vs Date ranges from 2010AD to 2019AD} \label{157} \end{figure} \\ From above graph it can shown that before the main shock there are so less magnitude sock and main shock is happened and then so many compan of shock less than 4.0 and grater than 4.0 is observed. The Main shock is 7.6 at 2015$-$4$-$25 at 6:11am and other shock are happened after this shock. The Minimum magnitude is 4.0 and there are 141 data having different date and epicentre. For the easy studying we are separating Figure2 in different years. \pagebreak \begin{figure}[h] \centering \includegraphics[scale=0.4] {2019.png} \caption{Plot of Magnitude Vs Date 2019AD} \label{157} \end{figure} \\\\ In the above graph we can see that the Maximum Magnitude is 5.0 and Minimum Magnitude is 4.0, in this year at initially Magnitude is high and it becomes decreasing and then again increasing and decreasing continuously up to till now. After High magnitude shock then loosest magnitude shock is appears. The change in time between first two peak is 67days and second and third peak is 88 days.\\ \\ In the graph below, 2018 and 2019 whole year there is no any relationship between two years and every month. There is no any correlation between any month of the these two years. Above 6.5 magnitude shock is only one in the whole year of 2018. In the 2018 graph the time change between two peak magnitude is 134days.\pagebreak \begin{figure}[h] \centering \includegraphics[scale=0.6] {20181.png} \caption{Plot of Magnitude Vs Date of 2018 and 2017 and compare the graph.} \label{157} \end{figure} And also in 2017 there are two magnitude which is greater than 5.5 and other smaller components are appears. So there is no any correlation of magnitude and time.\\ But in 2016 and 2015 there is large number of smaller and larger components of earthquake was appeared. In the 2015 and 2016 data, when high component of earthquake was happened then large number of shocks are appears after time to time. In 2015 one component having largest magnitude 7.6 from 2010AD to till Now. \pagebreak \begin{figure}[h] \centering \includegraphics[scale=0.65] {20161.png} \caption{Plot of Magnitude Vs Date of 2016 and 2015 and compare the graph.} \label{157} \end{figure} \subsection{Frequency distribution} The frequency distribution of earthquake events between 01 January 2010 and 25 August 2019 is presented in Fig. 5. The Gutenberg$-$Richter model obtained by least squares fit to the data is shown in the figure. The results indicate that the slope parameter (b-value) is equal to 0.85. This slope is less than 1, which implies a higher rate of occurrence of larger earthquakes than would be implied by a b-value of 1. The estimated b-value is the same as that presented by Adhikari et al. (2015) based on data from 45 days after the mainshock, but higher than 0.76 as reported by Parajuli (2009) using data between 1100 and 2002. \begin{center} \large\bf {Calculation of value of b} \end{center} We know that from the equation, \begin{equation} {Log} N =a- bM \end{equation} \begin{equation} \sum {Log} N =na- b\sum M \end{equation} \begin{equation} \sum (M \times {Log} N) =a\sum M- b\sum (M)^2 \end{equation} On Solving equation (4) and (5) we get the value of b which is equal to 0.84. Which is calculated by the help of table Below \begin{table}[h] \tiny \caption[]{Cumulative Number and Magnitude Table} $$ \begin{array}{p{0.3\linewidth}ccccc} \hline \hline \noalign{\smallskip} Magnitude &{\rm Number \,of \, Earthquake}&{\rm Log N}&{\rm M\times LogN}&{\rm Magnitude^2}\\ (ML) &(N)&&&&\\ \noalign{\smallskip} \hline \hline \noalign{\smallskip} 4 & 140 & 2.146128036 & 8.584512143 & 4.605865546 \\\\ 4.1 & 103 & 2.012837225 & 8.252632621 & 4.051513693 \\\\ 4.2 & 115 & 2.06069784 & 8.654930929 & 4.246475589 \\\\ 4.3 & 62 & 1.792391689 & 7.707284265 & 3.212667969 \\\\ 4.4 & 58 & 1.763427994 & 7.759083172 & 3.109678288 \\\\ 4.5 & 61 & 1.785329835 & 8.033984258 & 3.18740262 \\\\ 4.6 & 37 & 1.568201724 & 7.213727931 & 2.459256647 \\\\ 4.7 & 25 & 1.397940009 & 6.570318041 & 1.954236268 \\\\ 4.8 & 24 & 1.380211242 & 6.62501396 & 1.904983072 \\\\ 4.9 & 13 & 1.113943352 & 5.458322426 & 1.240869792 \\\\ 5 & 23 & 1.361727836 & 6.80863918 & 1.854302699 \\\\ 5.1 & 12 & 1.079181246 & 5.503824355 & 1.164632162 \\\\ 5.2 & 11 & 1.041392685 & 5.415241963 & 1.084498725 \\\\ 5.3 & 9 & 0.954242509 & 5.0574853 & 0.910578767 \\\\ 5.4 & 3 & 0.477121255 & 2.576454775 & 0.227644692 \\\\ 5.5 & 12 & 1.079181246 & 5.935496853 & 1.164632162 \\\\ 5.6 & 4 & 0.602059991 & 3.371535951 & 0.362476233 \\\\ 5.7 & 4 & 0.602059991 & 3.431741951 & 0.362476233 \\\\ 5.8 & 1 & 0 & 0 & 0 \\\\ 5.9 & 3 & 0.477121255 & 2.815015403 & 0.227644692 \\\\ 6 & 1 & 0 & 0 & 0 \\\\ 6.2 & 1 & 0 & 0 & 0 \\\\ 6.6 & 1 & 0 & 0 & 0 \\\\ 6.8 & 2 & 0.301029996 & 2.047003971 & 0.090619058 \\\\ 6.9 & 1 & 0 & 0 & 0 \\\\ 7.6 & 1 & 0 & 0 & 0 \\\\ $\sum$ M = & \sum N = & \sum {Log} N= & \sum (M \times {Log} N)= &\sum (M)^{2}=\\\\ 139.1 & 727 & 24.99622696 & 117.8222494 & 37.42245491 \\\\ \noalign{\smallskip} \hline \end{array} $$ \end{table} \begin{figure}[h!] \centering \includegraphics[scale=0.45] {logn.png} \caption{Frequency Magnitude distribution of earthquakes betweens 01 January 2010 and 25 August 2019. The solid line is the least squares line fitted to the data.} \label{157} \end{figure} \pagebreak \subsection{Time Interval and magnitude of any two Events of Earthquake} The relation of change in time with magnitude is shown in figure. The change in time is expressed in days and it is calculated from the subtraction of two events. From the graph we can say found that the gap between any two shock with their respective magnitude. Many methods have been developed for predicting the time and place in which earthquakes will occur. Despite considerable research efforts by seismologist, scientifically reproducible predictions cannot yet be made to a specific day or month. However, for well $-$ understood faults the probability that a segment may rupture during the next few decades can be estimated. Earthquake warning system have been developed. \\ \\ The graph show the magnitude and change in time of any two events expressed in days is shown in figure 7. In the low time difference there is low magnitude shock is appears. After the large time difference, when large magnitude of earthquake is happened then large number of smaller components are appears in short duration of time. After the main shock the energy is stored and after long time again large shock should happened but the date of 2015 main shock many more smaller shock less than main shocks are appeared. To become study easier we are separating figure 7 into different part. \begin{figure}[h] \centering \includegraphics[scale=0.4] {tmc.png} \caption{The graph of interval of any two constitutive event of earthquake from 2010AD to 2019AD} \label{157} \end{figure} \pagebreak From the separate parts of all graph in Figure 8, the maximum magnitude is 6.5 and there are many minimum magnitude of earthquake is appeared. In this first graph when time change is minimum then magnitude is also minimum when some of the component is maximum magnitude and before and after maximum shock more minimum shocks are appears. \begin{figure}[h!] \centering \includegraphics[scale=0.8] {tchvsmag1.png} \caption{The graph of interval of any two constitutive event of earthquake} \label{157} \end{figure} In the second graph there is the main shock which has magnitude of 7.6 and many more minimum shock are appears. In the third graph there are many more minimum magnitude of earthquake is appeared there is the another maximum value of magnitude of earthquake betweens 1940 and 1945 days time difference. After than increasing and decreasing curve is obtained. In the 4$^{th}$ graph one shock having magnitude 6.9 is appeared in betweens 3200 to 3300 days time difference and before this short magnitude shock of quake is happened and after this other smaller shocks of earthquake are appeared in this graph so that from all of the graph there is no any correlation between time difference and magnitude is obtained Which is shown in graph Below. \begin{figure}[h!] \centering \includegraphics[scale=0.8] {tchvsmag2.png} \caption{The graph of interval of any two constitutive event of earthquake} \label{157} \end{figure} \section{Conclusion} From this study it is concluded that the there is no any correlation between any two event time with Magnitude. It means that when high shock earthquake was appeared in one day then after certain time chances of occurrence of another high or low shock can not be estimate. So there is no any relation between two event with their magnitude. But for the main shock then after it there may be large number of smaller shock of earthquake happen. Also from this study we plot the time change with their respective magnitude, and it is concluded that there is no any relation of time with the Magnitude of Earthquake. In this study the calculated value of b from the data is 0.84 and from Gutenberg-Richter relationship some other researcher was calculated the same value. In the graph cumulative number of N and with magnitude is found to be Straight line. \pagebreak \begin{table}[h]    \tiny \caption[]{Earth Quake data from 2010-2019} $$ \begin{array}{p{0.1\linewidth}cccccc} \hline    \hline \noalign{\smallskip} Date &{\rm Time}&{\rm Latitude}&{\rm Longitude}&{\rm Magnitude(ML)}&{\rm Epicenter}\\ d \,m\, Yr &hr\,min&&&&&\\ \noalign{\smallskip} \hline \hline \noalign{\smallskip} 18/01/2010 & 0 & 28.18 & 84.79 & 4.5 & Gorkha \\ 17/02/2010 & 0 & 29.57 & 81.699 & 4.5 & Bajura \\ 25/02/2010 & 0 & 26.93 & 85.79 & 4.6 & Mahottari \\ 28/02/2010 & 0 & 28.38 & 82.32 & 4 & Salyan \\ 01/03/2010 & 0 & 28.44 & 83.17 & 4.1 & Baglung \\ 13/04/2010 & 0 & 28.64 & 85.71 & 4.4 & Tibet \\ 14/04/2010 & 0 & 28.23 & 84.37 & 4.1 & Lamjung \\ 30/04/2010 & 0 & 29.6 & 81.65 & 4.1 & Bajura \\ 13/05/2010 & 0 & 28.01 & 86.77 & 4.2 & Solukhumbu \\ 13/06/2010 & 0 & 29.4 & 81.38 & 4.5 & Bajura \\ 13/06/2010 & 0 & 28.3 & 84.51 & 4.8 & Lamjung \\ 13/06/2010 & 0 & 27.75 & 86.36 & 4.6 & Dolakha \\ 01/09/2010 & 0 & 28.31 & 83.09 & 4.3 & Baglung \\ 17/10/2010 & 0 & 29.37 & 81.34 & 5.2 & Bajura \\ 25/11/2010 & 0 & 29.76 & 83.11 & 4 & Bajura \\ 25/11/2010 & 0 & 28.4 & 81.52 & 4 & Baglung \\ 30/11/2010 & 0 & 29.78 & 81.52 & 5.1 & Bajhang \\ 05/12/2010 & 0 & 26.79 & 86.08 & 5 & Dhanusa \\ 18/12/2010 & 0 & 28.37 & 83.97 & 4.1 & Kaski \\ 18/01/2011 & 0 & 29.62 & 81.53 & 4.3 & Bajura \\ 18/01/2011 & 0 & 27.73 & 88.16 & 4.9 & Taplejung \\ 13/02/2011 & 0 & 27.72 & 88.09 & 4.6 & Taplejung \\ 22/02/2011 & 0 & 27.83 & 88.13 & 4 & Taplejung \\ 10/03/2011 & 0 & 27.97 & 82.86 & 4.5 & Pyuthan \\ 11/03/2011 & 0 & 28.05 & 85.34 & 4 & Rasuwa \\ 12/03/2011 & 0 & 28.91 & 81.68 & 4.6 & Dailekh \\ 22/03/2011 & 0 & 27.7 & 86.1 & 4.7 & Dolakha \\ 22/03/2011 & 0 & 28.2 & 84.93 & 4.2 & Gorkha \\ 04/04/2011 & 0 & 27.94 & 85.55 & 4.3 & Sindhupalchowk \\ 04/04/2011 & 0 & 28.34 & 83.66 & 4.3 & Parbat \\ 05/04/2011 & 0 & 29.55 & 81.68 & 4.7 & Bajura \\ 07/04/2011 & 0 & 30.16 & 81.81 & 4.6 & Humla \\ 03/06/2011 & 0 & 27.78 & 88.32 & 4.4 & TaplejungSikkim Border \\ 11/06/2011 & 0 & 26.94 & 86.6 & 4.1 & Udayapur \\ 11/06/2011 & 0 & 28.15 & 82.53 & 4.6 & Rolpa \\ 17/06/2011 & 0 & 28.29 & 83.96 & 4.3 & Kaski \\ 18/06/2011 & 0 & 29.7 & 81.34 & 4.3 & Bajhang \\ 15/07/2011 & 0 & 28.21 & 84.31 & 4.9 & Lamjung \\ 29/07/2011 & 0 & 27.44 & 86.27 & 4.8 & Ramechhap \\ 02/08/2011 & 0 & 29.9 & 81.31 & 4.7 & Bajhang \\ 09/08/2011 & 0 & 27.35 & 86.35 & 5 & Khotang \\ 15/08/2011 & 0 & 27.19 & 86.76 & 4.1 & Khotang \\ 18/08/2011 & 0 & 27.28 & 87.3 & 4.1 & Sankhuwasabha \\ 19/08/2011 & 0 & 27.83 & 87.35 & 4.4 & Sankhuwasabha \\ 22/08/2011 & 0 & 30.24 & 81.48 & 4.2 & Humla \\ 25/08/2011 & 0 & 28.4 & 82.55 & 4.8 & Rolpa \\ 27/08/2011 & 0 & 28.41 & 82.66 & 4.3 & Rolpa \\ 18/09/2011 & 0 & 27.6 & 88.03 & 4.2 & Taplejung \\ 01/10/2011 & 0 & 27.93 & 85.61 & 4.5 & Sindhupalchowk \\ 02/10/2011 & 0 & 29.74 & 80.37 & 4.2 & Darchula \\ 04/11/2011 & 0 & 29.92 & 80.54 & 4 & Darchula \\ 08/11/2011 & 0 & 30 & 80.81 & 4 & Darchula \\ 13/11/2011 & 0 & 28.11 & 82.74 & 4 & Pyuthan \\ 19/11/2011 & 0 & 28.35 & 83.96 & 4.3 & Kaski \\ 23/11/2011 & 0 & 28.31 & 83.78 & 4 & Kaski \\ 02/12/2011 & 0 & 28.31 & 83.8 & 4.7 & Kaski \\ 08/12/2011 & 5:40 PM & 28.02 & 85.24 & 4 & Rasuwa \\ 09/12/2011 & 10:57 PM & 27.57 & 87.01 & 4.4 & Sankhuwasabha \\ 14/12/2011 & 8:20 PM & 27.47 & 87.01 & 4.1 & BhojpurSankhuwasabha border \\ 18/12/2011 & 9:35 PM & 27.8 & 85.94 & 4 & Sindhupalchowk \\ 30/12/2011 & 2:10 AM & 30.03 & 81.97 & 4.7 & Humla \\ 11/01/2012 & 8:59 AM & 28.27 & 82.84 & 4.6 & Rolpa and Pyuthan border \\ 18/01/2012 & 11:16 AM & 28.88 & 82.34 & 4.1 & North East Jajarkot \\ 19/01/2012 & 12:46 AM & 29.55 & 81.31 & 4.2 & Bajhang \\ 24/01/2012 & 4:07 AM & 29.51 & 81.13 & 4.1 & Southern Bajhang \\ 05/02/2012 & 8:06 PM & 27.95 & 87.86 & 4.1 & Around Kanchanjunga \\ 14/02/2012 & 1:41 PM & 28.59 & 82.41 & 4.1 & Southern Rukum \\ 14/02/2012 & 1:48 PM & 28.61 & 82.43 & 4.1 & Southern Rukum \\ 26/02/2012 & 11:08 PM & 28.4 & 82.79 & 5.1 & Northern Rolpa \\ 26/02/2012 & 10:56 PM & 28.73 & 81.81 & 4.2 & Southeastern Dailekh \\ 19/03/2012 & 8:36 PM & 28.42 & 82.75 & 4 & RolpaRukum border region \\ 27/03/2012 & 11:40 PM & 28.38 & 82.66 & 4 & Rolpa \\ 11/04/2012 & 2:52 AM & 28.39 & 82.73 & 4.6 & Rolpa \\ 17/04/2012 & 11:13 PM & 28.38 & 82.84 & 4.9 & Rolpa Rukum border region \\ 30/05/2012 & 9:34 AM & 27.77 & 88.13 & 4.8 & Northern Taplejung \\ 09/06/2012 & 7:54 AM & 28.58 & 82.48 & 4.6 & Southern Rukum \\ 11/06/2012 & 4:35 AM & 28.53 & 82.42 & 4.1 & Southern Rukum \\ 15/06/2012 & 4:15 PM & 28.55 & 82.37 & 4.2 & Southern Rukum \\ 01/07/2012 & 7:54 AM & 30.12 & 80.54 & 4 & India (close to Darchula) \\ 11/07/2012 & 5:23 PM & 29.43 & 81.03 & 4.5 & Southern Bajhang \\ 28/07/2012 & 5:48 AM & 27.27 & 88.05 & 5.2 & Panchthar Sikkim border \\ 31/07/2012 & 11:50 AM & 28.99 & 81.58 & 4.2 & Dailekh  \\ 31/07/2012 & 11:58 AM & 27.25 & 88 & 4.5 & Panchthar Sikkim border \\ 31/07/2012 & 12:05 PM & 28.32 & 84.17 & 4.2 & Kaski \\ 06/08/2012 & 1:53 AM & 27.31 & 87.88 & 4.1 & Taplejung \\ 23/08/2012 & 4:42 PM & 28.5 & 82.06 & 4.1 & Salyan \\ 23/08/2012 & 4:30 PM & 29.55 & 81.24 & 4.4 & Bajhang \\ 24/08/2012 & 3:55 AM & 26.12 & 87.87 & 4.6 & JhapaIndia Border Region \\ 24/08/2012 & 12:17 AM & 28.7 & 82.02 & 4.3 & KarkigaunJajarkot \\ 28/08/2012 & 8:31 AM & 29.86 & 81.05 & 4.2 & BajhangDarchula border \\ 29/08/2012 & 7:54 PM & 29.71 & 81.02 & 4.4 & BajhangDarchula border \\ 30/08/2012 & 2:11 PM & 27.38 & 88.11 & 5.5 & TaplejungSikkim Border \\ 17/09/2012 & 9:45 AM & 27.33 & 88.03 & 4.6 & Taplejung \\ 22/10/2012 & 6:56 AM & 27.25 & 88.07 & 4.3 & Panchthar \\ 11/11/2012 & 6:39 PM & 26.84 & 86.43 & 4.1 & Siraha \\ \noalign{\smallskip} \hline \end{array} $$ \end{table} \begin{table}[h] \tiny \caption[]{Earth Quake data from 2010-2019 Continue} $$ \begin{array}{p{0.1\linewidth}cccccc} \hline \hline \noalign{\smallskip} Date &{\rm Time}&{\rm Latitude}&{\rm Longitude}&{\rm Magnitude(ML)}&{\rm Epicenter}\\ d \,m\, Yr &hr\,min&&&&&\\ \noalign{\smallskip} \hline \hline \noalign{\smallskip} 12/11/2012 & 12:42 PM & 29.73 & 81.91 & 5.5 & Humla \\ 04/12/2012 & 3:01 AM & 26.63 & 86.4 & 4.5 & Siraha \\ 22/12/2012 & 6:05 AM & 28.89 & 81.89 & 5.4 & Dailekh \\ 02/01/2013 & 5:42 PM & 29.56 & 81.68 & 4.3 & Bajura \\ 09/01/2013 & 7:44 AM & 27.36 & 87.37 & 4 & Sankhuwasava \\ 13/01/2013 & 5:35 PM & 30.08 & 81.74 & 4.4 & Humla \\ 18/01/2013 & 8:59 PM & 27.14 & 88.51 & 4.2 & Sikkim \\ 07/02/2013 & 1:08 AM & 30.25 & 81.55 & 4.8 & Humla \\ 22/02/2013 & 2:41 AM & 26.96 & 87.34 & 4.5 & Dhankuta \\ 06/03/2013 & 4:49 PM & 28.43 & 86.03 & 4 & Tibet \\ 17/03/2013 & 11:59 AM & 28.76 & 82.4 & 4.1 & Rukum \\ 28/04/2013 & 6:28 PM & 30.05 & 80.8 & 4.7 & Darchula \\ 14/05/2013 & 3:18 AM & 26.85 & 85.96 & 4.3 & Dhanusha \\ 14/05/2013 & 3:13 AM & 27.31 & 86.7 & 4.7 & Northern Khotang \\ 14/05/2013 & 9:59 AM & 29.74 & 81.6 & 4 & Northern Bajura \\ 26/05/2013 & 5:38 PM & 27.72 & 85.91 & 4.5 & Sindhupalchok \\ 31/05/2013 & 6:04 AM & 29.68 & 82 & 4.4 & Mugu \\ 09/06/2013 & 4:11 PM & 29.56 & 82 & 4 & Mugu \\ 26/06/2013 & 10:22 PM & 29.65 & 81.98 & 4 & Western Mugu \\ 27/06/2013 & 6:20 AM & 29.87 & 81.26 & 4.2 & Northern Bajhang \\ 28/06/2013 & 11:40 AM & 26.74 & 86.08 & 4.3 & Dhanusha \\ 30/08/2013 & 5:48 PM & 28.57 & 82.27 & 4.2 & Rukum \\ 12/09/2013 & 4:29 AM & 28.39 & 83.18 & 4 & Baglung \\ 22/09/2013 & 2:35 PM & 29.42 & 81.05 & 4.1 & Bajhang \\ 03/10/2013 & 6:12 AM & 29.48 & 81.26 & 4.4 & Bajhang \\ 13/10/2013 & 9:43 PM & 26.84 & 86.22 & 4.5 & Siraha \\ 28/10/2013 & 1:37 AM & 29.82 & 81.7 & 4.1 & Northern part of Bajura \\ 03/11/2013 & 6:47 AM & 29.41 & 81 & 4.3 & Bajhang and Doti border \\ 31/03/2014 & 7:51 AM & 27.73 & 86.52 & 4.4 & Solukhumbu \\ 11/04/2014 & 5:22 PM & 28.25 & 84.94 & 4.2 & Gorkha \\ 23/04/2014 & 7:14 AM & 27.76 & 88.05 & 4.6 & Taplejung \\ 20/05/2014 & 6:36 PM & 29.45 & 85.64 & 4.4 & Tibet \\ 25/05/2014 & 2:46 AM & 29.73 & 80.93 & 4.3 & BajhangDarchula border \\ 04/07/2014 & 5:58 AM & 27.83 & 87.91 & 4.4 & Taplejung \\ 07/07/2014 & 4:37 PM & 28.23 & 84.09 & 4.1 & Kaski \\ 03/08/2014 & 5:57 AM & 28.32 & 84.73 & 5 & Gorkha \\ 17/09/2014 & 10:29 AM & 27.3 & 87.62 & 4.2 & Taplejung \\ 25/11/2014 & 3:49 PM & 29.29 & 81.26 & 4.4 & Achham \\ 18/12/2014 & 3:32 PM & 30.11 & 81.93 & 4.3 & Humla \\ 06/01/2015 & 1:26 AM & 27.86 & 85.72 & 4.4 & Sindhupalchowk \\ 22/01/2015 & 9:27 AM & 27.7 & 86.12 & 4.1 & Dolakha \\ 31/01/2015 & 7:44 PM & 29.35 & 81.29 & 4.1 & Bajura \\ 14/02/2015 & 10:51 PM & 27.79 & 86.08 & 4 & Dolakha \\ 21/04/2015 & 7:52 PM & 29.44 & 81.69 & 4.5 & Bajura \\ 22/04/2015 & 7:14 AM & 28.04 & 85.02 & 4.1 & Dhading \\ 23/04/2015 & 1:57 AM & 27.86 & 86.19 & 4.6 & Dolakha \\ 25/04/2015 & 9:30 & 27.78 & 85.39 & 5.3 & Kathmandu \\ 25/04/2015 & 3:28 PM & 27.11 & 87.95 & 5.2 & Panchthar \\ 25/04/2015 & 4:08 PM & 27.63 & 85.53 & 5.1 & kavrepalanchok \\ 25/04/2015 & 10:40 & 27.87 & 85.77 & 5.2 & Sindhupalchowk \\ 25/04/2015 & 11:05 & 28.15 & 84.81 & 4.7 & Gorkha \\ 25/04/2015 & 11:41 & 27.87 & 85.29 & 4.1 & Nuwakot \\ 25/04/2015 & 12:17 & 28.43 & 83.3 & 4.1 & Myagdi \\ 25/04/2015 & 12:44 & 28.35 & 83.36 & 4.1 & Baglung \\ 25/04/2015 & 9:03 & 27.89 & 85.75 & 5.5 & Sindupalchok \\ 25/04/2015 & 8:55 & 27.77 & 85.88 & 5.1 & Sindhupalchok \\ 25/04/2015 & 9:43 & 28.02 & 85.28 & 5.6 & Rasuwa \\ 25/04/2015 & 6:11 & 27.99 & 85.65 & 4.5 & Sindupalchok \\ 25/04/2015 & 6:45 & 28.03 & 85.23 & 4.9 & Rasuwa \\ 25/04/2015 & 6:56 & 27.8 & 86.3 & 4.5 & Dolakha \\ 25/04/2015 & 7:08 & 27.71 & 86.16 & 4.1 & Dolakha \\ 25/04/2015 & 8:17 & 27.96 & 85.54 & 4 & Sindupalchowk \\ 25/04/2015 & 8:20 & 27.57 & 85.31 & 4 & Lalitpur \\ 25/04/2015 & 8:29 & 27.68 & 86.08 & 4 & Dolakha \\ 25/04/2015 & 13:30 & 27.69 & 86.09 & 4.7 & Dolakha \\ 25/04/2015 & 13:53 & 27.71 & 86.1 & 5 & Dolakha \\ 25/04/2015 & 7:47 PM & 27.71 & 86.15 & 4.4 & Dolakha \\ 25/04/2015 & 11:46 PM & 27.77 & 85.87 & 4.2 & Sindhupalchowk \\ 25/04/2015 & 6:38 & 29.83 & 80.6 & 5.3 & Darchula \\ 25/04/2015 & 7:47 & 27.74 & 85.07 & 4 & Dhading \\ 25/04/2015 & 11:27 PM & 27.76 & 86.37 & 4.1 & Dolakha \\ 25/04/2015 & 12:39 & 27.6 & 86.19 & 4.1 & Dolakha \\ 25/04/2015 & 7:21 PM & 27.82 & 86.24 & 4.1 & Dolakha \\ 25/04/2015 & 8:21 PM & 27.75 & 86.01 & 4.5 & Sindhupalchowk \\ 25/04/2015 & 10:23 & 27.64 & 86.19 & 5.1 & Dolakha \\ 25/04/2015 & 11:40 PM & 27.92 & 85.69 & 4.5 & Sindhupalchowk \\ 25/04/2015 & 11:25 PM & 27.92 & 84.94 & 5.5 & Dhading \\ 25/04/2015 & 11:24 PM & 27.66 & 86.23 & 4.4 & Dolakha \\ 25/04/2015 & 7:55 PM & 27.72 & 85.75 & 4.5 & Sindhupalchowk \\ 25/04/2015 & 8:25 PM & 28.12 & 84.89 & 5.6 & Gorkha \\ 25/04/2015 & 8:36 PM & 27.85 & 85.74 & 4 & Sindhupalchowk \\ 25/04/2015 & 9:02 PM & 30.11 & 81.53 & 4 & Humla \\ 25/04/2015 & 10:12 PM & 27.68 & 86.22 & 4.1 & Dolakha \\ 25/04/2015 & 10:31 PM & 27.87 & 86.17 & 4.1 & Dolakha \\ 25/04/2015 & 11:19 PM & 27.96 & 85.48 & 4.6 & Nuwakot \\ 25/04/2015 & 8:08 PM & 28 & 85.29 & 4.2 & Rasuwa \\ 26/04/2015 & 2:52 AM & 27.93 & 86.14 & 4.2 & Dolakha \\ 26/04/2015 & 5:01 AM & 27.71 & 86.05 & 4.4 & Dolakha \\ 26/04/2015 & 5:25 AM & 27.87 & 86.08 & 4 & Dolakha \\ 26/04/2015 & 5:26 AM & 27.59 & 85.97 & 4.3 & Dolakha \\ 26/04/2015 & 5:32 AM & 27.72 & 85.2 & 5.1 & Kathmandu \\ 26/04/2015 & 6:00 AM & 27.7 & 85.29 & 5 & Kathmandu \\ 26/04/2015 & 6:16 AM & 28.14 & 84.72 & 4 & Gorkha \\ 26/04/2015 & 8:43 AM & 30.1 & 81.85 & 4.5 & Humla \\ 26/04/2015 & 2:49 AM & 27.94 & 85.52 & 4.5 & Sindupalchok \\ 26/04/2015 & 2:17 AM & 27.77 & 85.7 & 4 & Sindupalchok \\ 26/04/2015 & 12:43 AM & 27.69 & 86.26 & 4 & Dolakha \\ 26/04/2015 & 12:14 AM & 27.5 & 85.5 & 5.3 & Kavre \\ 26/04/2015 & 1:29 AM & 27.86 & 85.76 & 4 & Sindupalchok \\ \noalign{\smallskip} \hline \end{array} $$ \end{table} \begin{table}[h] \tiny \caption[]{Earth Quake data from 2010-2019 Continue} $$ \begin{array}{p{0.1\linewidth}cccccc} \hline \hline \noalign{\smallskip} Date &{\rm Time}&{\rm Latitude}&{\rm Longitude}&{\rm Magnitude(ML)}&{\rm Epicenter}\\ d \,m\, Yr &hr\,min&&&&&\\ \noalign{\smallskip} \hline \hline \noalign{\smallskip} 26/04/2015 & 1:49 AM & 27.63 & 86.07 & 4.2 & Dolakha \\ 26/04/2015 & 1:52 AM & 27.64 & 86.07 & 4 & Dolakha \\ 26/04/2015 & 1:56 AM & 27.81 & 85.71 & 5 & Sindupalchok \\ 26/04/2015 & 2:08 AM & 27.66 & 86.09 & 4.5 & Dolakha \\ 26/04/2015 & 2:14 AM & 27.59 & 86.17 & 4.8 & Dolakha \\ 26/04/2015 & 8:55 AM & 27.68 & 86.04 & 6.9 & Dolakha \\ 26/04/2015 & 9:06 AM & 27.8 & 85.75 & 5.3 & Sindupalchok \\ 26/04/2015 & 8:17 PM & 27.94 & 85.48 & 5 & Nuwakot \\ 26/04/2015 & 8:29 PM & 27.68 & 86.22 & 4.8 & Dolakha \\ 26/04/2015 & 8:42 PM & 27.85 & 85.75 & 4.5 & Sindupalchok \\ 26/04/2015 & 9:47 PM & 27.66 & 86 & 4.5 & Dolakha \\ 26/04/2015 & 10:08 PM & 27.61 & 86.28 & 5.5 & Dolakha \\ 26/04/2015 & 10:10 PM & 27.7 & 85.32 & 4.6 & Kathmandu \\ 26/04/2015 & 10:42 PM & 27.86 & 86.39 & 4.1 & Dolakha \\ 26/04/2015 & 11:51 PM & 28.18 & 84.74 & 4 & Gorkha \\ 26/04/2015 & 7:08 PM & 29.8 & 80.73 & 4.6 & Darchula \\ 26/04/2015 & 6:56 PM & 27.63 & 86.09 & 4.1 & Dolakha \\ 26/04/2015 & 10:35 AM & 28.06 & 85.34 & 4.9 & Rasuwa \\ 26/04/2015 & 10:43 AM & 27.8 & 86.23 & 5.5 & Dolakha \\ 26/04/2015 & 12:54 PM & 27.89 & 85.73 & 5.3 & Sindupalchok  \\ 26/04/2015 & 1:12 PM & 27.92 & 85.68 & 5.7 & Sindhupalchok \\ 26/04/2015 & 1:22 PM & 27.6 & 86.23 & 4.6 & Dolakha \\ 26/04/2015 & 2:25 PM & 28.48 & 83.13 & 7.6 & Baglung \\ 26/04/2015 & 2:31 PM & 29.69 & 81.74 & 6.6 & Bajura \\ 26/04/2015 & 3:27 PM & 27.96 & 85.75 & 5.7 & Sindhupalchok \\ 27/04/2015 & 4:27 AM & 27.69 & 86.2 & 5.5 & Dolakha \\ 27/04/2015 & 4:17 AM & 27.86 & 85.87 & 4 & Sindupalchok \\ 27/04/2015 & 4:15 AM & 27.67 & 86.2 & 4.5 & Dolakha \\ 27/04/2015 & 3:37 AM & 27.73 & 85 & 4 & Dhading \\ 27/04/2015 & 12:39 AM & 27.97 & 85.62 & 4 & Sindhupalchowk \\ 27/04/2015 & 6:24 AM & 27.67 & 85.54 & 4 & Kavre \\ 27/04/2015 & 8:18 AM & 27.8 & 85.74 & 4.5 & Sindhupalchowk \\ 27/04/2015 & 9:59 AM & 27.71 & 86.12 & 4 & Dolakha \\ 27/04/2015 & 11:30 PM & 28.06 & 85.14 & 4.8 & Nuwakot \\ 27/04/2015 & 10:39 PM & 27.55 & 85.79 & 4.6 & Kavre \\ 27/04/2015 & 9:36 PM & 27.93 & 85.64 & 4.1 & Sindhupalchowk \\ 27/04/2015 & 3:17 PM & 27.92 & 85.68 & 4.1 & Sindhupalchowk \\ 27/04/2015 & 10:05 AM & 27.35 & 86.2 & 4 & Ramechhap \\ 28/04/2015 & 12:44 AM & 27.92 & 85.66 & 4.2 & Sindhupalchok \\ 28/04/2015 & 2:59 AM & 27.74 & 86.28 & 4.1 & Dolakha  \\ 28/04/2015 & 3:12 AM & 27.58 & 85.39 & 4.5 & Lalitpur \\ 28/04/2015 & 4:11 AM & 27.78 & 85.17 & 4.7 & Nuwakot \\ 28/04/2015 & 5:05 AM & 27.66 & 86.21 & 4.2 & Dolakha \\ 28/04/2015 & 7:45 AM & 27.94 & 85.49 & 4.3 & Sindhupalchok \\ 28/04/2015 & 8:40 AM & 27.85 & 85.75 & 4 & Sindhupalchowk \\ 28/04/2015 & 12:08 PM & 27.67 & 86.17 & 4.2 & Dolakha \\ 28/04/2015 & 3:10 PM & 27.8 & 86 & 4.5 & Sindupalchok \\ 28/04/2015 & 4:44 PM & 28.17 & 84.94 & 4 & Gorkha \\ 28/04/2015 & 5:03 PM & 28.65 & 82.76 & 4 & Rukum \\ 28/04/2015 & 10:07 PM & 28.26 & 84.92 & 4.8 & Gorkha \\ 29/04/2015 & 4:49 AM & 28.14 & 85.11 & 4 & Dhading \\ 29/04/2015 & 5:54 AM & 27.68 & 85.28 & 4 & Kathmandu \\ 29/04/2015 & 1:17 PM & 27.91 & 85.59 & 4.2 & Sindhupalchok \\ 29/04/2015 & 3:24 PM & 27.9 & 85.58 & 4 & Sindhupalchok \\ 29/04/2015 & 5:12 PM & 28.27 & 85.94 & 4.4 & Tibet \\ 29/04/2015 & 11:01 PM & 27.7 & 86.16 & 4.5 & Dolakha \\ 30/04/2015 & 6:22 AM & 27.87 & 85.72 & 4.9 & Sindhupalchowk \\ 30/04/2015 & 8:31 AM & 27.74 & 86.26 & 4.2 & Dolakha \\ 30/04/2015 & 1:29 PM & 27.8 & 85.15 & 4 & Nuwakot \\ 30/04/2015 & 11:19 PM & 27.73 & 86.16 & 4 & Dolakha \\ 01/05/2015 & 12:58 AM & 27.67 & 86.09 & 4.5 & Dolakha \\ 01/05/2015 & 2:56 AM & 28.21 & 84.81 & 4.5 & Gorkha \\ 01/05/2015 & 10:35 AM & 27.96 & 85.73 & 4.4 & Sindhupalchowk \\ 01/05/2015 & 11:28 AM & 27.67 & 86.07 & 4.8 & Dolakha \\ 01/05/2015 & 5:37 PM & 27.8 & 85.78 & 4.2 & Sindhupalchowk \\ 01/05/2015 & 8:27 PM & 27.87 & 85.81 & 4.2 & Sindhupalchowk \\ 01/05/2015 & 11:59 PM & 27.8 & 85.61 & 4.2 & Sindhupalchowk \\ 02/05/2015 & 3:55 AM & 27.62 & 86.1 & 4.7 & Dolakha \\ 02/05/2015 & 5:55 AM & 27.87 & 86.13 & 4.1 & Dolakha \\ 02/05/2015 & 9:32 AM & 27.9 & 85.64 & 4.3 & Sindhupalchowk \\ 02/05/2015 & 11:13 AM & 27.58 & 86.18 & 4 & Dolakha \\ 02/05/2015 & 11:20 AM & 28.26 & 85.86 & 4.2 & Tibet \\ 02/05/2015 & 9:01 PM & 27.79 & 85.78 & 4 & Sindhupalchowk \\ 03/05/2015 & 3:29 AM & 27.7 & 85.22 & 4.2 & Kathmandu \\ 03/05/2015 & 10:39 PM & 27.76 & 86.2 & 4 & Dolakha \\ 03/05/2015 & 5:47 AM & 27.84 & 85.78 & 4 & Sindhupalchowk \\ 03/05/2015 & 8:00 AM & 27.79 & 85.87 & 4.5 & Sindhupalchowk \\ 03/05/2015 & 10:46 AM & 27.76 & 86.07 & 4 & Dolakha \\ 03/05/2015 & 5:20 PM & 27.7 & 86.26 & 4.2 & Dolakha \\ 03/05/2015 & 6:58 PM & 30 & 81.75 & 4 & Humla \\ 03/05/2015 & 8:27 PM & 27.78 & 86.2 & 4.7 & Dolakha \\  04/05/2015 & 4:59 AM & 27.98 & 85.51 & 4.9 & Sindhupalchowk \\ 04/05/2015 & 7:00 AM & 28.29 & 84.46 & 4 & Lamjung \\ 04/05/2015 & 9:54 AM & 27.79 & 85.17 & 4.2 & Nuwakot \\ 04/05/2015 & 10:33 AM & 28.01 & 85.19 & 4.2 & Rasuwa \\ 04/05/2015 & 10:36 AM & 27.75 & 85.21 & 4.3 & Dhading \\ 04/05/2015 & 2:34 PM & 27.82 & 86.34 & 4.2 & Dolakha \\ 04/05/2015 & 3:40 PM & 28.07 & 84.94 & 4 & Dhading \\ 04/05/2015 & 1:17 PM & 28.17 & 84.72 & 5.1 & Gorkha  \\ 04/05/2015 & 6:02 PM & 28.01 & 84.84 & 4.1 & Dhading \\ 05/05/2015 & 6:39 AM & 28 & 84.98 & 4 & Dhading \\ 05/05/2015 & 4:23 PM & 27.99 & 84.79 & 4.1 & Dhading \\ 05/05/2015 & 5:00 PM & 27.95 & 84.8 & 4.5 & Dhading \\ 06/05/2015 & 10:19 PM & 27.64 & 85.31 & 4.5 & Kathmandu \\ 06/05/2015 & 6:02 PM & 27.77 & 86.25 & 4 & Dolakha \\ 07/05/2015 & 3:41 AM & 27.59 & 86.19 & 4.4 & Dolakha \\ 07/05/2015 & 7:56 AM & 27.59 & 86.16 & 4 & Dolakha \\ 07/05/2015 & 10:15 PM & 27.94 & 85.54 & 4.2 & Sindhupalchowk \\ \noalign{\smallskip} \hline \end{array} $$ \end{table} \begin{table}[h] \tiny \caption[]{Earth Quake data from 2010-2019 Continue} $$ \begin{array}{p{0.1\linewidth}cccccc} \hline \hline \noalign{\smallskip} Date &{\rm Time}&{\rm Latitude}&{\rm Longitude}&{\rm Magnitude(ML)}&{\rm Epicenter}\\ d \,m\, Yr &hr\,min&&&&&\\ \noalign{\smallskip} \hline \hline \noalign{\smallskip} 08/05/2015 & 3:05 PM & 27.59 & 86.2 & 4.3 & Dolakha \\ 08/05/2015 & 1:32 PM & 27.91 & 85.53 & 4.2 & Sindhupalchowk \\ 08/05/2015 & 8:19 AM & 27.89 & 85.53 & 4 & Sindhupalchowk \\ 08/05/2015 & 6:17 AM & 28.04 & 85.13 & 4.1 & Nuwakot \\ 08/05/2015 & 2:19 AM & 27.84 & 86.24 & 4.7 & Dolakha \\ 09/05/2015 & 3:08 AM & 27.63 & 86.3 & 4.2 & Dolakha \\ 10/05/2015 & 1:50 AM & 27.71 & 86.05 & 4 & Dolakha \\ 10/05/2015 & 6:34 AM & 27.54 & 85.43 & 4.2 & Lalitpur \\ 10/05/2015 & 2:44 AM & 28.02 & 85.26 & 4 & Rasuwa \\ 10/05/2015 & 11:08 AM & 27.74 & 86.19 & 4.3 & Dolakha \\ 10/05/2015 & 3:23 PM & 27.71 & 86.07 & 4.2 & Dolakha \\ 11/05/2015 & 11:54 PM & 28.01 & 84.68 & 4 & Gorkha \\ 11/05/2015 & 8:35 PM & 27.67 & 86.18 & 4 & Dolakha \\ 12/05/2015 & 1:51 PM & 27.76 & 86.28 & 6.8 & Dolakha \\ 12/05/2015 & 2:06 PM & 27.84 & 86 & 4.1 & Sindhupalchowk \\ 12/05/2015 & 2:09 PM & 27.8 & 86.29 & 4 & Dolakha \\ 12/05/2015 & 2:19 PM & 27.76 & 86.26 & 4.2 & Dolakha \\ 12/05/2015 & 2:20 PM & 27.9 & 85.51 & 4.2 & Sindhupalchok \\ 12/05/2015 & 2:24 PM & 27.74 & 86.2 & 4.3 & Dolakha \\ 12/05/2015 & 2:47 PM & 27.79 & 85.14 & 4.2 & Nuwakot \\ 12/05/2015 & 1:46 PM & 28.05 & 85.08 & 4.4 & Nuwakot \\ 12/05/2015 & 1:33 PM & 27.63 & 86.25 & 4.8 & Dolakha \\ 12/05/2015 & 1:28 PM & 27.78 & 85.93 & 4.1 & Sindhupalchowk \\ 12/05/2015 & 1:02 PM & 27.69 & 86.16 & 4.4 & Dolakha \\ 12/05/2015 & 2:44 PM & 30.31 & 81.47 & 4.3 & Humla \\ 12/05/2015 & 1:58 PM & 28.02 & 84.98 & 4 & Dhading \\ 12/05/2015 & 1:21 PM & 27.93 & 85.46 & 4.7 & Nuwakot \\ 12/05/2015 & 12:50 PM & 27.85 & 86.32 & 4.3 & Dolakha \\ 12/05/2015 & 2:08 AM & 27.84 & 86.33 & 4.4 & Dolakha \\ 12/05/2015 & 12:07 AM & 27.52 & 85.26 & 4.8 & Lalitput \\ 12/05/2015 & 3:14 PM & 27.92 & 86.04 & 4.2 & Sindhupalchowk \\ 12/05/2015 & 3:29 PM & 27.9 & 85.99 & 5 & Sindhupalchowk \\ 12/05/2015 & 11:13 PM & 27.66 & 86.03 & 4.4 & Dolakha \\ 12/05/2015 & 10:17 PM & 27.71 & 86.07 & 4.7 & Dolakha \\ 12/05/2015 & 6:47 PM & 28.11 & 84.88 & 4.6 & Dhading \\ 12/05/2015 & 9:13 PM & 27.69 & 86.26 & 4 & Dolakha \\ 12/05/2015 & 8:44 PM & 27.84 & 86.24 & 4.2 & Dolakha \\ 12/05/2015 & 7:42 PM & 27.48 & 85.87 & 4.2 & Ramechhap \\ 12/05/2015 & 7:28 PM & 27.73 & 86.06 & 4.4 & Dolakha \\ 12/05/2015 & 6:53 PM & 28.07 & 84.7 & 4 & Gorkha \\ 12/05/2015 & 6:13 PM & 27.65 & 86.12 & 4 & Dolakha \\ 12/05/2015 & 5:43 PM & 27.66 & 86.09 & 4.2 & Dolakha \\ 12/05/2015 & 3:49 PM & 27.97 & 85.48 & 4.1 & Nuwakot \\ 12/05/2015 & 4:00 PM & 28.13 & 84.89 & 4.2 & Gorkha \\ 12/05/2015 & 4:16 PM & 27.7 & 85.85 & 4.8 & Sindhupalchowk \\ 12/05/2015 & 4:20 PM & 27.45 & 85.31 & 4.2 & Lalitpur \\ 12/05/2015 & 4:26 PM & 27.6 & 86.26 & 5 & Dolakha \\ 12/05/2015 & 4:51 PM & 27.64 & 86.14 & 4 & Dolakha \\ 12/05/2015 & 5:06 PM & 27.63 & 86.25 & 4.2 & Dolakha \\ 13/05/2015 & 12:11 PM & 27.69 & 86.08 & 4.3 & Dolakha \\ 13/05/2015 & 10:33 AM & 27.93 & 84.84 & 5.1 & Dhading \\ 13/05/2015 & 8:28 AM & 27.92 & 84.84 & 5.1 & Dhading \\ 13/05/2015 & 8:08 AM & 27.61 & 86.2 & 5.2 & Dolakha \\ 13/05/2015 & 4:38 AM & 27.74 & 86.17 & 5 & Dolakha \\ 13/05/2015 & 3:10 AM & 27.84 & 85.84 & 4.8 & Sindhupalchowk \\ 13/05/2015 & 2:07 AM & 27.71 & 86.04 & 4.7 & Dolakha \\ 13/05/2015 & 12:22 PM & 28.06 & 85.35 & 4.7 & Rasuwa \\ 13/05/2015 & 12:34 PM & 27.75 & 86.14 & 4.7 & Dolakha \\ 13/05/2015 & 9:36 PM & 27.92 & 86.31 & 4.3 & Dolakha \\ 13/05/2015 & 9:21 PM & 27.66 & 86.07 & 4.8 & Dolakha \\ 13/05/2015 & 4:44 PM & 27.67 & 86.08 & 5 & Dolakha \\ 13/05/2015 & 3:42 AM & 27.8 & 85.82 & 5.8 & Sindupalchok \\ 13/05/2015 & 3:37 PM & 27.83 & 86.15 & 5.3 & Dolakha \\ 13/05/2015 & 2:30 PM & 27.62 & 86.09 & 5.3 & Dolakha \\ 13/05/2015 & 12:38 PM & 27.69 & 86.11 & 6.2 & Sindhupalchok \\ 14/05/2015 & 9:40 PM & 27.79 & 86.19 & 4.3 & Dolakha  \\ 14/05/2015 & 8:50 PM & 27.75 & 86.25 & 5.9 & Dolakha \\ 14/05/2015 & 8:21 PM & 27.65 & 86.18 & 4.2 & Dolakha \\ 14/05/2015 & 7:43 PM & 27.82 & 86.47 & 4.8 & Dolakha \\ 14/05/2015 & 12:16 AM & 27.91 & 84.82 & 4.6 & Dhading \\ 14/05/2015 & 3:13 AM & 27.68 & 85.3 & 4.1 & Kathmandu \\ 14/05/2015 & 3:23 AM & 27.79 & 86.07 & 4 & Dolakha \\ 14/05/2015 & 8:52 AM & 27.84 & 86.25 & 4.5 & Dolakha \\ 14/05/2015 & 9:06 AM & 27.7 & 86.15 & 4.2 & Dolakha  \\ 14/05/2015 & 3:20 PM & 27.64 & 85.7 & 4 & Kavrepalanchok \\ 15/05/2015 & 3:38 AM & 27.63 & 86.17 & 4.5 & Dolakha \\ 15/05/2015 & 4:06 AM & 27.85 & 85.92 & 4.2 & Sindhupalchok \\ 15/05/2015 & 7:27 AM & 27.85 & 86.29 & 4.7 & Dolakha \\ 15/05/2015 & 10:51 AM & 27.6 & 86.16 & 4.6 & Dolakha \\ 15/05/2015 & 3:09 PM & 27.68 & 86.17 & 4.4 & Dolakha \\ 15/05/2015 & 10:58 PM & 27.8 & 85.94 & 4.4 & Sindhupalchok \\ 16/05/2015 & 2:15 AM & 27.66 & 86.17 & 4 & Dolakha \\ 16/05/2015 & 4:28 AM & 27.79 & 86.11 & 4 & Dolakha \\ 16/05/2015 & 4:38 AM & 27.88 & 85.94 & 4 & Sindhupalchok \\ 16/05/2015 & 6:11 AM & 27.68 & 86.23 & 4.5 & Dolakha \\ 16/05/2015 & 6:31 AM & 27.69 & 86.21 & 4 & Dolakha \\ 16/05/2015 & 9:24 AM & 27.8 & 86.12 & 4.3 & Dolakha \\ 16/05/2015 & 9:35 AM & 27.68 & 86.04 & 4.1 & Dolakha \\ 16/05/2015 & 5:19 PM & 27.63 & 86.17 & 5 & Dolakha \\ 16/05/2015 & 8:44 PM & 27.69 & 86.24 & 4 & Dolakha \\ 17/05/2015 & 8:40 PM & 27.84 & 86.17 & 5.5 & Dolakha \\ 17/05/2015 & 11:30 AM & 27.76 & 86.31 & 4 & Dolakha \\ 17/05/2015 & 5:00 AM & 27.8 & 85.83 & 4.5 & Sindhupalchok \\ 18/05/2015 & 9:11 AM & 27.73 & 86.21 & 4.3 & Dolakha \\ 18/05/2015 & 6:27 PM & 27.82 & 86.12 & 4.1 & Dolakha \\ 18/05/2015 & 11:24 AM & 28.16 & 84.9 & 4.3 & Gorkha \\ 19/05/2015 & 4:44 PM & 28.1 & 84.91 & 4.2 & Dhading \\ 19/05/2015 & 11:29 AM & 27.7 & 86.01 & 4.2 & Dolakha \\ \noalign{\smallskip} \hline \end{array} $$ \end{table} \begin{table}[h] \tiny \caption[]{Earth Quake data from 2010-2019 Continue} $$ \begin{array}{p{0.1\linewidth}cccccc} \hline \hline \noalign{\smallskip} Date &{\rm Time}&{\rm Latitude}&{\rm Longitude}&{\rm Magnitude(ML)}&{\rm Epicenter}\\ d \,m\, Yr &hr\,min&&&&&\\ \noalign{\smallskip} \hline \hline \noalign{\smallskip} 19/05/2015 & 4:34 AM & 27.8 & 85.95 & 5.5 & Sindhupalchok \\ 20/05/2015 & 11:10 AM & 27.58 & 86.41 & 4 & Ramechhap \\ 20/05/2015 & 2:47 PM & 27.68 & 86.04 & 4 & Dolakha \\ 21/05/2015 & 7:30 PM & 27.89 & 85.88 & 4 & Sindhupalchok \\ 21/05/2015 & 2:56 PM & 27.97 & 86.45 & 4.1 & Tibet \\ 21/05/2015 & 2:11 PM & 28.03 & 86.36 & 4.1 & Tibet \\ 22/05/2015 & 2:45 PM & 27.84 & 86.23 & 4.2 & Dolakha \\ 22/05/2015 & 4:44 PM & 27.78 & 85.85 & 4.1 & Sindhupalchok \\ 22/05/2015 & 5:30 PM & 27.72 & 85.97 & 4 & Dolakha \\ 22/05/2015 & 6:49 PM & 27.7 & 86.04 & 4.4 & Dolakha \\ 22/05/2015 & 8:44 PM & 27.71 & 86 & 4.6 & Dolakha \\ 22/05/2015 & 7:07 PM & 27.68 & 86.03 & 4.4 & Dolakha \\ 23/05/2015 & 10:26 PM & 27.57 & 86.29 & 4 & Ramechhap \\ 23/05/2015 & 1:14 PM & 27.69 & 86.05 & 4.3 & Dolakha \\ 24/05/2015 & 7:06 AM & 27.73 & 86.11 & 4 & Dolakha \\ 24/05/2015 & 10:38 AM & 27.76 & 86.24 & 4.2 & Dolakha \\ 24/05/2015 & 11:46 AM & 27.62 & 86.16 & 4.2 & Dolakha \\ 24/05/2015 & 12:55 PM & 27.72 & 86.2 & 4.4 & Dolakha \\ 24/05/2015 & 11:15 PM & 27.91 & 85.75 & 4.2 & Sindhupalchowk \\ 25/05/2015 & 10:16 PM & 27.99 & 85.86 & 4.1 & Sindhupalchowk \\ 25/05/2015 & 11:00 AM & 28.04 & 85.96 & 4.8 & Tibet  \\ 25/05/2015 & 3:23 AM & 27.88 & 86 & 4 & Sindhupalchowk \\ 26/05/2015 & 2:11 PM & 26.94 & 86.67 & 4.2 & Udayapur \\ 26/05/2015 & 5:48 PM & 28.02 & 85.25 & 4.2 & Rasuwa \\ 26/05/2015 & 6:39 PM & 27.65 & 85.56 & 4.8 & kavre \\ 26/05/2015 & 8:00 PM & 28.04 & 85.2 & 4.1 & Rasuwa \\ 26/05/2015 & 10:52 PM & 28.01 & 85.41 & 4 & Nuwakot \\ 27/05/2015 & 12:03 PM & 27.77 & 85.88 & 4.2 & Sindhupalchowk \\ 27/05/2015 & 1:15 PM & 27.75 & 85.91 & 4.4 & Sindhupalchowk \\ 27/05/2015 & 1:16 PM & 27.69 & 86.04 & 4.3 & Dolakha \\ 27/05/2015 & 10:29 PM & 27.94 & 85.58 & 4.4 & Sindhupalchowk \\ 28/05/2015 & 3:07 AM & 27.75 & 85.19 & 4.3 & Nuwakot \\ 28/05/2015 & 3:40 AM & 27.79 & 85.16 & 5 & Nuwakot \\ 28/05/2015 & 5:12 AM & 27.92 & 85.46 & 4.4 & Nuwakot \\ 28/05/2015 & 5:29 AM & 28.04 & 85.26 & 4.1 & Rasuwa \\ 28/05/2015 & 11:36 AM & 28.01 & 84.68 & 5 & Gorkha \\ 28/05/2015 & 12:14 PM & 28.06 & 85.05 & 4.2 & Dhading \\ 28/05/2015 & 10:16 PM & 27.74 & 86.03 & 4.4 & Dolakha \\ 29/05/2015 & 12:37 AM & 27.96 & 86 & 4.6 & Sindhupalchowk \\ 29/05/2015 & 5:20 AM & 27.75 & 85.87 & 4.2 & Sindhupalchowk \\ 29/05/2015 & 8:30 AM & 27.69 & 85.99 & 4.3 & Dolakha \\ 29/05/2015 & 12:30 PM & 27.97 & 85.21 & 4.1 & Nuwakot \\ 29/05/2015 & 3:44 PM & 27.79 & 85.16 & 4.1 & Nuwakot \\ 30/05/2015 & 10:13 PM & 27.8 & 85.16 & 4 & Nuwakot \\ 30/05/2015 & 8:35 PM & 27.79 & 86.23 & 4.2 & Dolakha \\ 30/05/2015 & 1:52 AM & 27.95 & 85.86 & 4.5 & Sindhupalchowk \\ 31/05/2015 & 1:54 PM & 28.12 & 84.8 & 4.1 & Gorkha \\ 01/06/2015 & 22:50 & 27.74 & 86 & 4.2 & Dolakha \\ 02/06/2015 & 8:33 PM & 27.69 & 85.93 & 4 & Sindhupalchowk \\ 02/06/2015 & 5:03 & 28.05 & 84.94 & 4.2 & Dhading \\ 03/06/2015 & 21:00 & 28.08 & 85.04 & 4.8 & Gorkha \\ 03/06/2015 & 7:52 & 27.98 & 84.87 & 5.2 & Dhading \\ 03/06/2015 & 8:54 & 27.94 & 84.83 & 4 & Dhading \\ 03/06/2015 & 11:53 & 27.8 & 85.11 & 4 & Nuwakot \\ 04/06/2015 & 10:30 & 27.89 & 85.73 & 4 & Sindhupalchowk \\ 05/06/2015 & 4:17 & 28.09 & 85.72 & 4.2 & Sindhupalchowk \\ 05/06/2015 & 8:31 & 27.95 & 85.73 & 4.2 & Sindhupalchowk \\ 06/06/2015 & 17:00 & 27.74 & 86.28 & 4 & Dolakha \\ 06/06/2015 & 20:48 & 27.93 & 85.5 & 4 & Sindhupalchowk \\ 07/06/2015 & 16:50 & 27.72 & 85.74 & 4.2 & Sindhupalchowk \\ 07/06/2015 & 5:17 & 28.24 & 84.76 & 4.5 & Gorkha \\ 10/06/2015 & 21:05 & 27.66 & 86.01 & 4.7 & Dolakha \\ 10/06/2015 & 7:51 & 27.7 & 85.98 & 4 & Dolakha \\ 10/06/2015 & 9:06 & 27.68 & 85.3 & 4 & Kathmandu \\ 11/06/2015 & 16:12 & 27.75 & 85.95 & 4.5 & Sindhupalchowk \\ 11/06/2015 & 18:41 & 28.04 & 85.33 & 4.2 & Rasuwa \\ 11/06/2015 & 4:17 & 27.74 & 85.99 & 4.5 & Dolakha \\ 12/06/2015 & 4:34 & 27.88 & 85.87 & 4 & Sindhupalchowk \\ 12/06/2015 & 19:37 & 28.04 & 85.32 & 4.1 & Rasuwa \\ 13/06/2015 & 1:18 & 27.93 & 84.83 & 4 & Dhading \\ 14/06/2015 & 9:16 & 28.05 & 85.34 & 4.2 & Rasuwa \\ 14/06/2015 & 0:14 & 27.65 & 86.09 & 4.1 & Dolakha \\ 15/06/2015 & 10:07 & 27.92 & 85.87 & 4 & Sindhupalchowk \\ 16/06/2015 & 16:11 & 27.93 & 85.63 & 4.6 & Sindhupalchowk \\ 17/06/2015 & 0:13 & 27.79 & 85.14 & 4.1 & Nuwakot \\ 17/06/2015 & 0:29 & 28.04 & 85.37 & 4.3 & Nuwakot \\ 17/06/2015 & 0:41 & 27.86 & 84.89 & 4.2 & Dhading \\ 17/06/2015 & 2:15 & 27.95 & 85.52 & 4.1 & Sindhupalchowk \\ 18/06/2015 & 2:39 & 28.19 & 84.8 & 4.6 & Gorkha \\ 19/06/2015 & 20:05 & 28.29 & 84.93 & 4 & Gorkha \\ 20/06/2015 & 20:55 & 27.92 & 85.51 & 4.6 & Sindhupalchowk \\ 20/06/2015 & 12:23 PM & 27.89 & 85.76 & 5.3 & Sindhupalchowk \\ 21/06/2015 & 13:41 & 28.1 & 84.65 & 4.4 & Gorkha \\ 22/06/2015 & 7:34 & 28.1 & 85.49 & 5.2 & Sindhupalchok \\ 24/06/2015 & 9:14 & 27.81 & 86.09 & 4.2 & Dolakha \\ 25/06/2015 & 15:22 & 27.76 & 85.8 & 4.1 & Sindhupalchowk \\ 25/06/2015 & 18:04 & 27.96 & 85.55 & 4.1 & Sindhupalchowk \\ 25/06/2015 & 18:06 & 27.83 & 85.83 & 4.1 & Sindhupalchowk \\ 26/06/2015 & 12:17 & 27.78 & 85.17 & 4 & Nuwakot \\ 26/06/2015 & 9:00 & 27.88 & 85.88 & 5.1 & Sindhupalchowk \\ 28/06/2015 & 16:16 & 28.2 & 84.78 & 5.2 & Gorkha \\ 29/06/2015 & 17:49 & 27.82 & 85.76 & 4 & Sindhupalchowk \\ 29/06/2015 & 17:42 & 27.57 & 85.74 & 4.1 & Kavrepalanchowk \\ 29/06/2015 & 23:57 & 27.56 & 85.73 & 4.4 & Kavrepalanchowk \\ 30/06/2015 & 21:46 & 27.75 & 85.2 & 5.4 & Kathmandu \\ 01/07/2015 & 21:48 & 28.26 & 85.1 & 4 & Rasuwa \\ 01/07/2015 & 3:27 & 27.77 & 85.12 & 4.3 & Nuwakot \\ 01/07/2015 & 9:39 & 27.67 & 85.55 & 4.2 & Kavrepalanchowk \\ \noalign{\smallskip} \hline \end{array} $$ \end{table} \begin{table}[h] \tiny \caption[]{Earth Quake data from 2010-2019 Continue} $$ \begin{array}{p{0.1\linewidth}cccccc} \hline \hline \noalign{\smallskip} Date &{\rm Time}&{\rm Latitude}&{\rm Longitude}&{\rm Magnitude(ML)}&{\rm Epicenter}\\ d \,m\, Yr &hr\,min&&&&&\\ \noalign{\smallskip} \hline \hline \noalign{\smallskip} 02/07/2015 & 1:56 & 28.24 & 85.23 & 4.2 & Rasuwa \\ 02/07/2015 & 23:41 & 28.19 & 85.03 & 4 & Dhading \\ 04/07/2015 & 20:04 & 27.82 & 85.89 & 4.1 & Sindhupalchowk \\ 05/07/2015 & 19:42 & 27.67 & 85.29 & 4.1 & Kathmandu \\ 05/07/2015 & 4:22 & 27.8 & 85.12 & 4.3 & Nuwakot \\ 06/07/2015 & 15:29 & 27.93 & 85.86 & 4.3 & Sindhupalchowk \\ 06/07/2015 & 5:03 & 27.82 & 85.8 & 4.2 & Sindhupalchowk \\ 07/07/2015 & 3:21 PM & 27.99 & 85.02 & 4.1 & Nuwakot \\ 07/07/2015 & 9:31 AM & 27.69 & 85.25 & 5 & Kathmandu \\ 08/07/2015 & 4:10 & 27.67 & 86.07 & 4.4 & Dolakha \\ 08/07/2015 & 4:34 & 28.05 & 85.34 & 4 & Rasuwa \\ 09/07/2015 & 12:14 & 27.67 & 85.28 & 4 & Kathmandu \\ 11/07/2015 & 20:43 & 27.84 & 85.12 & 4 & Nuwakot \\ 13/07/2015 & 11:54 & 28.32 & 84.73 & 4.1 & Gorkha \\ 13/07/2015 & 10:16 & 27.98 & 84.99 & 4 & Gorkha \\ 15/07/2015 & 2:29 AM & 27.6 & 85.96 & 5 & Sindhupalchowk \\  17/07/2015 & 23:24 & 27.71 & 85.43 & 4.6 & Kathmandu \\ 21/07/2015 & 2:24 & 27.94 & 85.55 & 4.2 & Sindhupalchowk \\ 22/07/2015 & 16:29 & 27.93 & 85.56 & 4.4 & Sindhupalchowk \\ 25/07/2015 & 14:19 & 28.05 & 85.35 & 4.4 & Rasuwa \\ 25/07/2015 & 18:20 & 28.14 & 84.71 & 4.3 & Gorkha \\ 26/07/2015 & 3:45 & 27.93 & 85.56 & 4.2 & Sindhupalchowk \\ 26/07/2015 & 4:18 & 28.25 & 85.83 & 4.6 & Rasuwa \\ 27/07/2015 & 12:38 & 28.24 & 84.82 & 4.1 & Gorkha \\ 28/07/2015 & 15:38 & 27.8 & 85.16 & 4.4 & Nuwakot \\ 28/07/2015 & 12:53 & 27.64 & 85.63 & 4.4 & Kavre \\ 28/07/2015 & 3:36 & 27.79 & 85.15 & 4.2 & Nuwakot \\ 30/07/2015 & 14:33 & 27.72 & 85.97 & 4 & Sindhupalchowk \\ 01/08/2015 & 1:37 & 28.31 & 84.97 & 4.2 & Gorkha \\ 05/08/2015 & 11:53 & 27.65 & 85.97 & 4 & Dolakha \\ 05/08/2015 & 8:14 & 27.67 & 85.3 & 4.1 & Kathmandu \\ 06/08/2015 & 14:51 & 27.95 & 85.87 & 4.3 & Sindhupalchowk \\ 07/08/2015 & 6:12 & 27.83 & 86.06 & 4.6 & Dolakha \\ 08/08/2015 & 0:39 & 27.91 & 85.55 & 4.5 & Sindhupalchowk \\ 08/08/2015 & 15:40 & 27.68 & 85.95 & 4.3 & Dolakha \\ 09/08/2015 & 6:36 PM & 27.89 & 85.6 & 4.1 & Sindhupalchowk \\ 09/08/2015 & 2:10 & 28.04 & 85.5 & 4 & Sindhupalchowk \\ 10/08/2015 & 22:30 & 28.26 & 85.02 & 4.2 & Gorkha \\ 11/08/2015 & 4:57 & 27.84 & 86.05 & 4.1 & Dolakha \\ 13/08/2015 & 20:04 & 27.75 & 85.94 & 4 & Sindhupalchowk \\ 14/08/2015 & 13:02 & 27.94 & 86.05 & 4.1 & Tibet \\ 15/08/2015 & 18:11 & 27.79 & 86 & 4.2 & Sindhupalchowk \\ 15/08/2015 & 4:25 & 27.97 & 85.81 & 4.5 & Sindhupalchowk \\ 18/08/2015 & 22:23 & 27.77 & 85.91 & 4.3 & Sindhupalchowk \\ 20/08/2015 & 6:02 & 28 & 85.6 & 4.1 & Sindhupalchowk \\ 21/08/2015 & 6:36 & 28.29 & 85.16 & 4.1 & Rasuwa \\ 23/08/2015 & 9:02 & 27.87 & 85.8 & 4.4 & Sindhupalchowk \\ 25/08/2015 & 9:23 & 27.86 & 85.85 & 4.1 & Sindhupalchowk \\ 26/08/2015 & 7:46 AM & 27.91 & 85.5 & 4 & Sindhupalchowk \\ 27/08/2015 & 0:22 & 28.14 & 85.28 & 4 & Rasuwa \\ 27/08/2015 & 19:06 & 28 & 85.4 & 4.1 & Nuwakot \\ 30/08/2015 & 21:24 & 28.16 & 84.71 & 4 & Gorkha \\ 30/08/2015 & 2:41 & 27.91 & 85.33 & 4.3 & Nuwakot \\ 30/08/2015 & 13:17 & 27.65 & 85.63 & 4.9 & Kabre \\ 31/08/2015 & 17:48 & 28.29 & 85.16 & 4.3 & Rasuwa \\ 02/09/2015 & 23:06 & 28.24 & 84.75 & 4.1 & Gorkha \\ 03/09/2015 & 23:25 & 28.28 & 84.72 & 4.8 & Gorkha \\ 09/09/2015 & 12:38 & 28.13 & 85.65 & 4.8 & Rasuwa \\ 16/09/2015 & 14:52 & 28.2 & 85.75 & 4.6 & Rasuwa \\ 20/09/2015 & 22:20 & 27.78 & 85.84 & 4 & Sindhupalchowk \\ 22/09/2015 & 6:32 & 27.9 & 84.86 & 5.1 & Dhading \\ 29/09/2015 & 10:54 & 28.18 & 84.95 & 4.1 & Gorkha \\ 29/09/2015 & 9:27 AM & 28.1 & 85.2 & 4 & Rasuwa \\ 05/10/2015 & 7:36 & 27.79 & 85.16 & 4.1 & Nuwakot \\ 05/10/2015 & 7:33 & 27.68 & 85.32 & 4.2 & Kathmandu \\ 06/10/2015 & 12:02 & 27.78 & 85.98 & 5 & Sindhupalchowk  \\ 07/10/2015 & 23:30 & 28.41 & 85.8 & 4.1 & Tibet \\ 08/10/2015 & 16:13 & 27.99 & 85.71 & 4.2 & Tibet \\ 08/10/2015 & 7:15 & 28.34 & 85.91 & 4.3 & Tibet \\ 16/10/2015 & 8:43 & 27.82 & 86.05 & 4.4 & Dolakha \\ 17/10/2015 & 18:01 & 27.69 & 86.02 & 4.3 & Dolakha \\ 31/10/2015 & 3:43 & 27.6 & 86.09 & 4 & Dolakha \\ 12/11/2015 & 10:00 & 27.87 & "85.8 " & 4.2 & Sindhupalchowk \\ 17/11/2015 & 13:10 & 28.1 & 85.27 & 4 & Rasuwa \\ 19/11/2015 & 4:15 & 27.78 & 85.17 & 4.6 & Nuwakot \\ 19/11/2015 & 11:59 & 27.9 & 85.53 & 4.5 & Sindhupalchowk \\ 20/11/2015 & 8:00 AM & 27.73 & 85.9 & 4.6 & Sindhupalchowk \\ 22/11/2015 & 1:26 PM & 27.73 & 85.9 & 4.8 & Sindhupalchowk \\ 24/11/2015 & 12:24 & 28.14 & 85.16 & 4.2 & Rasuwa \\ 24/11/2015 & 11:15 & 27.95 & 85.56 & 4.2 & Sindhupalchowk \\  25/11/2015 & 18:57 & 27.92 & 85.64 & 4.2 & Sindhupalchowk \\ 27/11/2015 & 10:37 AM & 27.8 & 85.29 & 4.1 & Nuwakot \\ 27/11/2015 & 9:38 & 27.77 & 85.83 & 4 & Sindhupalchowk \\ 30/11/2015 & 0:25 & 28.05 & 85.25 & 4.2 & Rasuwa \\ 07/12/2015 & 1:42 & 28.4 & 83.99 & 4.2 & Kaski \\ 13/12/2015 & 3:00 & 28.8 & 81.92 & 4.3 & Jajarkot \\ 18/12/2015 & 10:16 PM & 28.85 & 82.18 & 4.2 & Jajarkot \\ 23/12/2015 & 3:14 & 27.42 & 87.01 & 4.3 & Bhojpur \\ 26/12/2015 & 4:48 AM & 28.29 & 83.73 & 4 & Kaski \\ 28/12/2015 & 22:07 & 29.36 & 81.03 & 5.3 & Doti \\ 31/12/2015 & 1:56 & 29.07 & 81.51 & 4 & Dailekh \\ 02/01/2016 & 21:30 & 27.79 & 86.58 & 4.1 & Ramechap/Solukhumbu \\ 04/01/2016 & 13:02 & 29.69 & 81.05 & 4 & Bajhang \\ 09/01/2016 & 17:43 & 27.87 & 85.3 & 4.4 & Nuwakot \\ 15/01/2016 & 17:14 & 28.04 & 85.17 & 4.1 & Rasuwa \\ 15/01/2016 & 13:05 & 27.66 & 85.95 & 4.1 & Dolakha \\ 22/01/2016 & 19:22 & 27.67 & 85.95 & 4.6 & Dolakha \\ \noalign{\smallskip} \hline \end{array} $$ \end{table} \begin{table}[h] \tiny \caption[]{Earth Quake data from 2010-2019 Continue} $$ \begin{array}{p{0.1\linewidth}cccccc} \hline \hline \noalign{\smallskip} Date &{\rm Time}&{\rm Latitude}&{\rm Longitude}&{\rm Magnitude(ML)}&{\rm Epicenter}\\ d \,m\, Yr &hr\,min&&&&&\\ \noalign{\smallskip} \hline \hline \noalign{\smallskip} 27/01/2016 & 8:42 PM & 27.65 & 86.13 & 4 & Dolakha \\ 27/01/2016 & 14:57 & 27.91 & 85.77 & 4.1 & Sindhupalchowk \\ 05/02/2016 & 16:20 & 27.82 & 86.14 & 4.1 & Dolakha \\ 10/02/2016 & 16:27 & 27.78 & 86.35 & 5.5 & Dolakha \\ 13/02/2016 & 14:37 & 29.81 & 81.56 & 4.1 & Bajura \\ 20/02/2016 & 22:09 & 27.99 & 84.71 & 4.1 & Gorkha \\ 21/02/2016 & 18:09 & 27.84 & 86.16 & 4.2 & Dolakha \\ 23/02/2016 & 3:00 AM & 27.92 & 85.66 & 4.3 & Sindhupalchowk \\ 24/02/2016 & 9:22 & 28.31 & 84.35 & 4.4 & Lamjung \\ 01/03/2016 & 10:45 & 29.64 & 81.28 & 4.2 & Bajhang \\ 06/03/2016 & 1:25 & 29.63 & 81.24 & 4 & Bajhang \\ 07/03/2016 & 8:05 AM & 29.63 & 81.28 & 4.3 & Bajhang \\ 11/03/2016 & 9:28 & 27.76 & 86.34 & 4.1 & Dolakha \\ 13/03/2016 & 5:15 & 27.93 & 85.21 & 4.6 & Nuwakot \\ 15/03/2016 & 21:27 & 28.03 & 84.64 & 4.2 & Gorkha \\ 17/03/2016 & 5:14 & 27.96 & 85.62 & 5.9 & Sindhupalchowk \\ 24/03/2016 & 23:41 & 27.94 & 85.5 & 4.5 & Sindhupalchok \\ 30/03/2016 & 12:26 & 27.73 & 85.16 & 4.5 & Dhading \\ 31/03/2016 & 22:41 & 27.93 & 85.5 & 5.9 & Sindhupalchowk \\ 04/04/2016 & 3:55 AM & 27.97 & 85.55 & 5.5 & Sindhupalchowk \\ 04/04/2016 & 4:31 & 27.69 & 86.24 & 4.7 & Dolakha \\ 09/04/2016 & 13:20 & 28.01 & 84.68 & 4 & Gorkha \\ 12/04/2016 & 14:41 & 28.01 & 84.94 & 4.5 & Dhading \\ 22/04/2016 & 11:04 & 28.24 & 84.99 & 4.1 & Gorkha/Dhading \\ 22/04/2016 & 6:56 & 29.38 & 81.88 & 4 & Kalikot \\ 24/04/2016 & 20:31 & 29.54 & 81.1 & 5.4 & Bajhang \\ 26/04/2016 & 9:33 & 28.05 & 85.38 & 4.2 & Rasuwa \\ 30/04/2016 & 6:43 AM & 28.08 & 85.13 & 4.9 & Nuwakot \\ 04/05/2016 & 5:32 AM & 27.79 & 85.85 & 4.5 & Sindhupalchowk \\ 05/05/2016 & 4:46 & 27.72 & 86.29 & 4.3 & Dolakha \\ 11/05/2016 & 8:52 & 27.56 & 86.17 & 4.2 & Dolakha \\ 11/05/2016 & 1:19 & 27.65 & 85.31 & 4.4 & Lalitpur \\ 13/05/2016 & 19:24 & 29.81 & 81.51 & 4.5 & Bajhang \\ 14/05/2016 & 23:20 & 27.72 & 86.09 & 4.2 & Dolakha \\ 15/05/2016 & 22:45 & 27.93 & 85.59 & 4.4 & Sindhupalchowk \\ 24/05/2016 & 19:09 & 27.89 & 85.73 & 4.4 & Sindhupalchowk \\ 28/05/2016 & 9:39 & 27.75 & 88.04 & 5.5 & Taplejung \\ 03/06/2016 & 23:25 & 27.34 & 86.27 & 6 & Okhaldhunga \\ 14/06/2016 & 23:27 & 27.84 & 85.73 & 4.5 & Sindhupalchowk \\ 21/06/2016 & 5:49 & 27.83 & 84.9 & 4.4 & Dhading \\ 22/06/2016 & 13:00 & 27.9 & 85.87 & 5.7 & Sindhupalchowk \\ 29/06/2016 & 9:26 AM & 30.22 & 81.7 & 4.3 & Humla \\ 29/06/2016 & 9:10 AM & 27.69 & 85.93 & 4.5 & Sindhupalchowk \\ 02/07/2016 & 12:23 AM & 27.79 & 85.73 & 4.3 & Sindhupalchowk \\ 07/07/2016 & 11:53 & 27.8 & 85.74 & 4.5 & Sindhupalchok \\ 07/07/2016 & 8:59 & 27.47 & 87.15 & 4.2 & Sankhuwasava \\ 08/07/2016 & 22:23 & 28.08 & 84.76 & 4.6 & Gorkha \\ 23/07/2016 & 6:14 & 27.86 & 85.29 & 4 & Nuwakot \\ 27/08/2016 & 12:03 PM & 27.81 & 85.72 & 4 & Sindhupalchowk \\ 05/09/2016 & 0:37 & 27.84 & 85.71 & 4.5 & Sindhupalchowk \\ 05/09/2016 & 2:04 & 27.95 & 85.52 & 4.4 & Sindhupalchowk \\ 18/09/2016 & 17:12 & 27.83 & 85.83 & 4.4 & Sindhupalchowk \\ 07/10/2016 & 4:52 & 26.68 & 86.27 & 4.9 & Siraha \\ 11/10/2016 & 7:08 & 28.06 & 85.09 & 4.7 & Nuwakot \\ 12/10/2016 & 8:29 & 27.65 & 86.23 & 5.2 & Dolakha \\ 15/10/2016 & 12:37 & 27.63 & 86.25 & 4.3 & Dolakha \\ 17/10/2016 & 4:18 & 27.48 & 86.01 & 4.2 & Ramechhap \\ 06/11/2016 & 4:02 PM & 27.75 & 86.12 & 4.2 & Dolakha \\ 28/11/2016 & 23:35 & 28.01 & 85.8 & 5.1 & Sindhupalchowk \\ 03/01/2017 & 6:41 PM & 29.82 & 80.76 & 4.5 & Darchula \\ 04/02/2017 & 12:13 & 27.96 & 85.68 & 4.2 & Sindhupalchowk \\ 10/02/2017 & 11:13 AM & 27.63 & 86.19 & 4 & Dolakha \\ 18/02/2017 & 0:15 & 29.78 & 81.28 & 4.9 & Bajhang \\ 27/02/2017 & 3:37 & 29.08 & 81.45 & 4.2 & Achham \\ 27/02/2017 & 4:21 & 28.5 & 83.32 & 5 & Myagdi \\ 10/03/2017 & 1:43 AM & 28.83 & 82.55 & 4.8 & Rukum \\ 24/04/2017 & 3:04 PM & 27.62 & 86.25 & 4.2 & Dolakha  \\ 24/04/2017 & 11:19 & 28.06 & 85.94 & 5 & SindhupalchokTibet border \\ 30/05/2017 & 5:38 PM & 29.41 & 81.1 & 5.6 & Bajhang \\ 12/06/2017 & 11:54 & 27.66 & 86.27 & 4.4 & Dolakha \\ 14/06/2017 & 3:42 AM & 27.56 & 85.96 & 4.4 & Dolakha \\ 28/06/2017 & 18:24 & 28.94 & 81.75 & 5.2 & Dailekh \\ 02/07/2017 & 1:58 & 27.34 & 86.49 & 4.4 & Okhaldhunga \\ 15/07/2017 & 4:35 PM & 27.66 & 86.41 & 4.3 & Ramechhap \\ 24/07/2017 & 4:44 & 27.88 & 88.13 & 4.5 & TaplejungTibet Border \\ 21/08/2017 & 12:03 & 27.62 & 86.1 & 4.4 & Dolakha \\ 22/08/2017 & 12:50 AM & 29.64 & 80.97 & 4.5 & Bajhang \\ 24/08/2017 & 10:40 & 29.75 & 81.31 & 5.6 & Bajhang \\ 21/09/2017 & 7:19 & 27.86 & 85.77 & 4.5 & Sindhupalchowk \\ 02/10/2017 & 1:22 AM & 30.37 & 81.57 & 4 & Humla \\ 15/10/2017 & 11:17 PM & 27.36 & 86.12 & 4.5 & Ramechhap \\ 26/10/2017 & 12:51 PM & 27.38 & 86.13 & 4.1 & Ramechhap \\ 06/11/2017 & 3:09 AM & 27.79 & 84.8 & 4.3 & Dhading \\ 08/12/2017 & 2:51 & 29.88 & 80.61 & 4.7 & Darchula \\ 18/12/2017 & 11:33 & 27.73 & 86.08 & 4.2 & Dolakha \\ 28/12/2017 & 7:45 & 29.71 & 81.57 & 4.3 & Bajura \\ 19/01/2018 & 2:53 & 27.85 & 85.76 & 4.3 & Sindhupalchok \\ 21/02/2018 & 15:59 & 27.72 & 86.02 & 4.4 & Sindhupalchok/Dolakha \\ 26/02/2018 & 19:00 & 28.94 & 81.72 & 4 & Dailekh \\ 02/03/2018 & 5:06 & 28.93 & 81.7 & 4.2 & Dailekh \\ 05/05/2018 & 15:04 & 28.94 & 81.74 & 4.1 & Dailekh \\ 24/05/2018 & 14:25 & 28.57 & 82.88 & 5.7 & East Rukum \\ 31/05/2018 & 16:00 & 27.79 & 87.41 & 4.1 & Sankhuwasabha \\ 31/05/2018 & 20:32 & 27.5 & 88.04 & 4.1 & Taplejung \\ 01/06/2018 & 15:22 & 27.66 & 86.1 & 5.2 & Dolakha \\ 05/06/2018 & 1:34 & 27.94 & 85.51 & 4.2 & Sindhupalchok \\ 20/06/2018 & 4:15 & 27.75 & 84.87 & 4.2 & Dhading \\ 20/06/2018 & 4:09 & 29.02 & 81.51 & 4.1 & Dailekh \\ \noalign{\smallskip} \hline \end{array} $$ \end{table} \begin{table}[h] \tiny \caption[]{Earth Quake data from 2010-2019 Continue} $$ \begin{array}{p{0.1\linewidth}cccccc} \hline \hline \noalign{\smallskip} Date &{\rm Time}&{\rm Latitude}&{\rm Longitude}&{\rm Magnitude(ML)}&{\rm Epicenter}\\ d \,m\, Yr &hr\,min&&&&&\\ \noalign{\smallskip} \hline \hline \noalign{\smallskip} 28/06/2018 & 4:07 & 27.82 & 84.81 & 4.3 & Dhading \\ 05/07/2018 & 1:36 & 29.57 & 81.56 & 4.5 & Bajura \\ 13/07/2018 & 3:13 & 28.11 & 85.04 & 4.2 & Dhading \\ 17/07/2018 & 17:07 & 27.87 & 84.91 & 4 & Dhading \\ 18/07/2018 & 5:30 & 27.31 & 87.9 & 4.3 & Taplejung \\ 24/07/2018 & 11:59 & 27.36 & 88.01 & 4 & Taplejung \\ 24/07/2018 & 2:45 & 29.68 & 81.65 & 5 & Bajura \\ 02/08/2018 & 8:47 & 27.68 & 86.11 & 4.9 & Dolakha \\ 24/08/2018 & 12:31 & 28.9 & 81.77 & 4 & Dailekh \\ 29/08/2018 & 17:50 & 28.17 & 84.89 & 4.4 & gorkha \\ 19/09/2018 & 19:57 & 29.98 & 80.54 & 5 & Dharchula \\ 05/10/2018 & 16:00 & 27.74 & 88.13 & 4.7 & Taplejung \\ 05/10/2018 & 7:08 & 27.7 & 86.33 & 6.8 & Dolakha \\ 06/10/2018 & 5:07 & 27.7 & 86.33 & 4.2 & Dolakha \\ 25/10/2018 & 1:22 & 28.07 & 85.96 & 4 & "Tibet " \\ 22/12/2018 & 23:21 & 27.72 & 86.01 & 4.1 & Dolakha \\ 10/01/2019 & 5:49 & 28.5 & 83.22 & 5 & Myagdi \\ 22/01/2019 & 16:45 & 27.8 & 86.15 & 4.1 & Dolakha \\   14/02/2019 & 11:26 & 27.67 & 85.42 & 4.2 & Bhaktapur \\ 16/02/2019 & 14:49 & 27.95 & 84.8 & 4.2 & Dhading \\ 26/02/2019 & 10:30 & 28.95 & 81.98 & 4.2 & Jajarkot \\ 26/02/2019 & 10:35 & 29.52 & 81.05 & 4 & Bajhang \\ 18/03/2019 & 3:16 & 29.62 & 82.11 & 4.9 & Mugu \\ 01/04/2019 & 15:02 & 29.5 & 81.28 & 4.6 & Bajhang \\   09/04/2019 & 7:20 & 27.7 & 86.47 & 4 & Ramechhap \\ 13/04/2019 & 4:40 & 28.21 & 84.37 & 4.1 & Lamjung \\ 14/04/2019 & 22:42 & 27.85 & 84.87 & 4.1 & Dhading \\ 16/04/2019 & 6:50 & 28.98 & 81.78 & 4.6 & Dailekh \\ 24/04/2019 & 0:44 & 27.94 & 85.72 & 4.3 & Sindhupalchowk \\ 24/04/2019 & 0:55 & 27.93 & 85.94 & 4.1 & Sindhupalchowk \\ 29/04/2019 & 5:50 & 27.69 & 85.17 & 4.5 & Dhading \\ 04/05/2019 & 2:52 & 27.7 & 85.14 & 4.2 & Dhading \\ 11/05/2019 & 18:51 & 28 & 84.76 & 4 & Gorkha \\ 17/05/2019 & 8:23 & 29.49 & 81.24 & 4.2 & Bajhang \\ 21/05/2019 & 18:02 & 28.03 & 85.38 & 4.5 & Rasuwa \\ 25/05/2019 & 15:23 & 27.76 & 86.27 & 4.8 & Dolakha \\ 25/05/2019 & 5:17 & 28.98 & 81.69 & 4 & Dailekh \\ 30/05/2019 & 4:16 & 27.63 & 85.16 & 4 & Makawanpur \\ 14/06/2019 & 6:37 & 27.66 & 86 & 5 & Dolakha \\ 15/06/2019 & 15:47 & 27.84 & 85.95 & 4.7 & Sindhupalchok \\ 27/06/2019 & 16:36 & 27.68 & 85.27 & 4.5 & Kathmandu \\ 06/07/2019 & 10:30 & 27.81 & 88.18 & 4.4 & Taplejung \\ 24/07/2019 & 12:13 & 27.09 & 86.96 & 4.2 & Bhojpur \\ 09/08/2019 & 12:41 & 27.6 & 86.31 & 4.1 & Ramechhap \\ \noalign{\smallskip} \hline \end{array} $$ \end{table} \begin{thebibliography}{99} \bibitem{1} Cattin, R., and J. 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