Need help writing this code based off of the last checkpoints code: Last code in image.

Checkpoint B

For Checkpoint B you will extend Checkpoint A to do the following:

1. Prompts the user for an additional parameter: the bound on the timescale n of the simulation
   • If a user inputs a negative timescale, the program should immediately print an error message and exit.
2. The program will calculate k,u for every time i<n and output these populations at each step
   • If the population grows negative, treat it as population that has become zero.

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1. Prompts the user for an additional parameter: the bound on the timescale of the simulation • If a user inputs a negative timescale, the program should immediately print an error message and exit. 2. The program will calculate ki, u for every time in and output these populations at each step • If the population grows negative, treat it as population that has become zero. Hint: your program will need a for-loop. Complete this checkpoint after we have introduced for-loops in class. Sample Output Sample input/output behavior for the checkpoint are provided below. Your program's spacing, spelling, capitalization, and punctuation will need to match the sample output EXACTLY for this project. Ex 1 Sample Input/Output Given inputs a, B, 7, 8, ko, uo, nas: 1.5 .001 .05 2.5 100 2 10 The program outputs ==> Bull Kelp and Purple Urchin Population Simulator <== Model Parameters Kelp growth rate: Kelp death rate: Urchin birth rate: Urchin death rate: --- Initial Population Kelp population (in thousands) at t = 0: Urchin population (in thousands) at t = 0: --- --- Simulation --- --- Timescale: Time t = 0: 100.000k kelp, 2.000k urchins Time t = 1: 249.800k kelp, 7.000k urchins Time t = 2: 622.751k kelp, 76.930k urchins Time t = 3: Time t = 4: Time t = 5: 4351723217220.qx37 1508.970k kelp, 2280.018k urchins 331.946k kelp, 168603.957k urchins 0.000k kelp, 2545463.659k urchins 0.000k kelp, 0.000k urchins Time t = 6: Time t = 7: 0.000k kelp, 0.000k urchins Time t = 8: 0.000k kelp, 0.000k urchins Time t = 9: 0.000k kelp, 0.000k urchins Time t = 10: 0.000k kelp, 0.000k urchins

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1 def main(): print("==> Bull Kelp and Purple Urchin Population Simulator <==\n") print("--- Model Parameters ---") 4234 in 89 5 6 7 a2 = float (input("Kelp death rate: \n")) 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 # Get the parameters from the user al = float(input ("Kelp growth rate: \n")) 31 32 33 34 35 36 37 38 39 a3 = float (input ("Urchin birth rate: \n")) a4 = float (input ("Urchin death rate: \n")) if al < 0: print("Error: cannot have a negative growth rate") return if a3 < 0: print("Error: cannot have a negative birth rate") return # Check for negative values and exit if any is found if a2 <0 or a4 < 0: print("Error: cannot have a negative death rate") return main.py print("\n-Initial Population ---") # Get the initial population values from the user k1 float (input ("Kelp population (in thousands) at t = 0: \n")) = k2 = float (input("Urchin population (in thousands) at t = 0: \n")) # Treat negative populations as zero if k1 < 0: k1 = 0 if k2 < 0: k2 = e print("\n Simulation ---") print("Time t = 0: {:.3f}k kelp, {:.3f}k urchins". format (k1, k2)) # Calculate the populations at t=1 f1 = k1+k1 * a1 - k1 a2 * k2 f2 = k2 + k2 a3 k1- k2 * a4 40 41 42 43 44 45 46 47 48 49 if name 50 main() # Treat negative populations as zero if f1 < 0: f1 = 0 if f2 < 0: f2 = 0 print("Time t = 1: {:.3f}k kelp, {:.3f}k urchins".format(f1, f2)) == _main__": Load default template...