Create Tejas_Mishra_MST_Matlab_1

README.md

@@ -34,6 +34,9 @@ git config --global user.email "[email protected]"
 
 ---
 
+## NOTE: Clone the repository only after the questions get posted. 
+
+
 ## 🚀 Getting Started: Fork, Copy URL, and Clone
 
 ### 1. **Fork this Repository**

members_selection_test/MATLAB questions/Question_1_Data_Science_Laboratory.m → members_selection_test/MATLAB_Questions/Q1_Data_Science_Laboratory.m

@@ -85,7 +85,7 @@
 📁 SUBMISSION INSTRUCTIONS:
 ==========================
 - Create a new MATLAB file named "Data_Lab_[YourName].m"
-- Save your solution in the "Submissions" folder
+- Save your solution in your personal folder inside the "Submissions" folder
 - Do NOT modify this question file
 - Include your name and roll number as comments at the top of your solution file
 
@@ -97,6 +97,7 @@
 % Name: [Your Full Name]
 % Roll Number: [Your Roll Number] 
 % Question: Data Science Laboratory
-% Time: 30 minutes
+
 
 % Write your solution below this line
+%}

members_selection_test/MATLAB questions/Question_2_Space_Mission_Control.m → members_selection_test/MATLAB_Questions/Q2_Space_Mission_Control.m

@@ -87,7 +87,7 @@
 📁 SUBMISSION INSTRUCTIONS:
 ==========================
 - Create a new MATLAB file named "Space_Mission_[YourName].m"
-- Save your solution in the "Submissions" folder
+- Save your solution in your personal folder inside the "Submissions" folder
 - Do NOT modify this question file
 - Include your name and roll number as comments at the top of your solution file
 
@@ -104,3 +104,4 @@
 % Time: 30 minutes
 
 % Write your solution below this line
+%}

members_selection_test/python questions/Question_1_Prime_Number_Detective.py → members_selection_test/Python_Questions/Q1_Prime_Number_Detective.py

@@ -95,7 +95,7 @@
 📁 SUBMISSION INSTRUCTIONS:
 ==========================
 - Create a new Python file named "Prime_Detective_[YourName].py"
-- Save your solution in the "Submissions" folder
+- Save your solution in your personal folder inside the "Submissions" folder
 - Do NOT modify this question file
 - Include your name and roll number as comments at the top of your solution file
 

members_selection_test/python questions/Question_2_Palindrome_Portal.py → members_selection_test/Python_Questions/Q2_Palindrome_Portal.py

@@ -109,7 +109,7 @@
 📁 SUBMISSION INSTRUCTIONS:
 ==========================
 - Create a new Python file named "Palindrome_Portal_[YourName].py"
-- Save your solution in the "Submissions" folder
+- Save your solution in your personal folder inside the "Submissions" folder
 - Do NOT modify this question file
 - Include your name and roll number as comments at the top of your solution file
 

members_selection_test/README.md

@@ -213,15 +213,6 @@ git push origin solutions-YOUR_NAME
 
 
 
-## ⏰ Time Management Tips
-
-### Recommended Schedule (2 hours total):
-- **Minutes 0-5**: Set up GitHub and clone repository
-- **Minutes 5-35**: Python Question 1 (30 minutes)
-- **Minutes 35-65**: Python Question 2 (30 minutes)  
-- **Minutes 65-95**: MATLAB Question 1 (30 minutes)
-- **Minutes 95-115**: MATLAB Question 2 (20 minutes)
-- **Minutes 115-120**: Create pull request and submit (5 minutes)
 
 ### Pro Tips:
 - ✅ **Start with the language you're more comfortable with**

members_selection_test/Submissions/Tejas_Mishra_MST_Matlab_1

@@ -0,0 +1,27 @@
+% Name:Tejas Mishra
+% Roll Number: 300012723066
+% Question: Space Mission Control
+% Time: 30 minutes
+%  Create arrays
+soil_density = [2.3, 1.8, 3.1, 2.7, 1.9, 3.4, 2.1, 2.9];
+rover_locations = [10, 25, 40, 55, 70, 85, 100, 115];
+
+% Basic Analysis
+total_points = length(soil_density);
+max_density = max(soil_density);
+min_density = min(soil_density);
+average_density = mean(soil_density);
+
+%  Data Processing
+heavy_soil = soil_density > 2.5;
+heavy_count = length(find(heavy_soil));
+max_index = find(soil_density == max_density);
+
+% Display results
+disp('=== MARS MISSION CONTROL - ROVER DATA ANALYSIS ===')
+disp(['Total Measurement Points: ', num2str(total_points)])
+disp(['Maximum Soil Density: ', num2str(max_density), ' g/cm³'])
+disp(['Minimum Soil Density: ', num2str(min_density), ' g/cm³'])
+disp(['Average Density: ', num2str(average_density), ' g/cm³'])
+disp(['Heavy Soil Locations: ', num2str(heavy_count), ' sites found'])
+disp(['Index of Maximum Density Reading: ', num2str(max_index)])