བྷ ཎྜ ཎྜ པྲ ཛི སྠཽ གཽ Hot Weekends Corresponding Day Figure 1. Create a Similar Ple 2004 Number of times Temp<85F per Month for the year of 2024 Jon Fell Mar Apr May June July Aura sex oc Figure 2. Create a Similar Plot 80 70 Max and Min Temps in Each Month for 2024 Month 7 d Calendar To Do Notifica 1 Part 1: Randomly Generated Data Figures 1, 2, and 3 are created in this part. Preliminary work: 1. Create a date vector starting January 1st, 2024 and ending at December 31st, 2024. 2. Find associated days of the week. 3. Create a random temperature vector with a maximum of 120 and a minimum of 55. Each day in the date vector should have an associated temperature. 4. Make a string for the weekend days. 5. Further develop the code to find data to create the following figures: (a) A linear plot for weekends in which the temperature is over 100. (b) A bar plot showing how many times the temperature is below 85 in each month. (c) Two linear plots showing the maximum and minimum temperature in each month. EGME 205 12.m and EGME_205_13.m may prove useful.
བྷ ཎྜ ཎྜ པྲ ཛི སྠཽ གཽ Hot Weekends Corresponding Day Figure 1. Create a Similar Ple 2004 Number of times Temp<85F per Month for the year of 2024 Jon Fell Mar Apr May June July Aura sex oc Figure 2. Create a Similar Plot 80 70 Max and Min Temps in Each Month for 2024 Month 7 d Calendar To Do Notifica 1 Part 1: Randomly Generated Data Figures 1, 2, and 3 are created in this part. Preliminary work: 1. Create a date vector starting January 1st, 2024 and ending at December 31st, 2024. 2. Find associated days of the week. 3. Create a random temperature vector with a maximum of 120 and a minimum of 55. Each day in the date vector should have an associated temperature. 4. Make a string for the weekend days. 5. Further develop the code to find data to create the following figures: (a) A linear plot for weekends in which the temperature is over 100. (b) A bar plot showing how many times the temperature is below 85 in each month. (c) Two linear plots showing the maximum and minimum temperature in each month. EGME 205 12.m and EGME_205_13.m may prove useful.
C++ for Engineers and Scientists
4th Edition
ISBN:9781133187844
Author:Bronson, Gary J.
Publisher:Bronson, Gary J.
Chapter2: Problem Solving Using C++using
Section2.1: Introduction To C++
Problem 10E: (Practice) You’re given the job of preparing a complete meal for five people next weekend. Determine...
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Please make the exact same graphs on MATLAB, send the code, PLEASE MAKE IT LOOK EXACTLY THE SAME, and please make sure it actually works on MATLAB with no errors.
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