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| train_mass = 22680 | |
| train_acceleration = 10 | |
| train_distance = 100 | |
| bomb_mass = 1 | |
| def f_to_c(f_temp): | |
| c_temp = ((f_temp - 32) * 5/9) | |
| return c_temp | |
| f100_in_celsius = f_to_c(100) | |
| def c_to_f(c_temp): | |
| f_temp = (c_temp*(9/5)+32) | |
| return f_temp | |
| c0_in_fahrenheit = c_to_f(0) | |
| def get_force(mass, acceleration): | |
| speed = mass * acceleration | |
| return speed | |
| train_force = get_force(train_mass, train_acceleration) | |
| print(train_force) | |
| print("The GE train supplies "+ str(train_force) +" Newtons of force.") | |
| def get_energy(mass, c = 3*10**8): | |
| energy = mass * c**2 | |
| return energy | |
| bomb_energy = get_energy(bomb_mass) | |
| print("A 1kg bomb supplies "+str(bomb_energy)+" Joules") | |
| def get_work(mass, acceleration, distance): | |
| force = get_force() * distance | |
| return force | |
| train_work = get_work(train_mass, train_acceleration, train_distance) | |
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