63 lines
2.2 KiB
Python
63 lines
2.2 KiB
Python
# These could be from the std math lib, but I like the numpy ones better personally
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from numpy import sin, cos, pi
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# Pull a1 support
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from a1_support import GRAVITY_ACC, WATER_DENSITY, HELP_MESSAGE
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from a1_support import load_data, plot_water_height
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# Fill these in with your details
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__author__ = "Cal Wing"
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__email__ = "cal@wing.id.au"
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__date__ = "14/02/2025"
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__version__ = "1.0.0"
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# Task 1
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def determine_power_used(water_mass: float, elevation: float, pumping_time: float, efficiency: float) -> float:
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"""
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Calculates the power required to pump a certain mass of water a certain height
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taking into account the pumping_time and efficiency.
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Parameters:
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water_mass (float): the mass of the water pumped [kg]
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elevation (float): the height difference [m]
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pumping_time (float): the amount of time the pump is running for [hrs]
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efficiency (float): the conversion efficiency [%]
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Returns:
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(float): the power required by the pump [kW]
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"""
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# Ideal energy needed to lift the water
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potenital_energy = water_mass * GRAVITY_ACC * elevation # J = kg * m/s^2 * m = mgh
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# Actual amount of energy needed based on eff
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# Here an 85% eff means an extra 15% is needed to pump the water up
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electrical_energy = potenital_energy * (1 + (1 - efficiency/100)) # J = J * SCALER
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# Actual electrial power used to pump the water
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power_used = electrical_energy / (pumping_time*60*60) # W = J / S = J / (hr*60*60)
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return power_used / 10e3 # W -> kW
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def main():
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print("Hello World!")
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# See if I get what the task sheet wants
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def sheet_tasks():
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TASKS = (
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(determine_power_used, (5e6, 250, 8, 85), 500.9191176470588),
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)
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for i, (task, args, expected) in enumerate(TASKS):
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print(f'Task {i+1}')
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result = task(*args)
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if expected is not None:
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print(f'{task.__qualname__}{args} -> {result} {"==" if result == expected else "!="} {expected}')
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print(f'Task{"" if result == expected else " NOT"} equal to expected result.')
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else:
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print(f'{task.__qualname__}{args} -> {result}')
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print()
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if __name__ == '__main__':
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sheet_tasks() |