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153 lines
4.1 KiB
Python
153 lines
4.1 KiB
Python
"""
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Horizontal Projectile Motion problem in physics.
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This algorithm solves a specific problem in which
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the motion starts from the ground as can be seen below:
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(v = 0)
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**
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* *
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* *
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* *
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* *
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* *
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GROUND GROUND
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For more info: https://en.wikipedia.org/wiki/Projectile_motion
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"""
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# Importing packages
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from math import radians as angle_to_radians
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from math import sin
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# Acceleration Constant on Earth (unit m/s^2)
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g = 9.80665
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def check_args(init_velocity: float, angle: float) -> None:
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"""
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Check that the arguments are valid
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"""
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# Ensure valid instance
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if not isinstance(init_velocity, (int, float)):
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raise TypeError("Invalid velocity. Should be a positive number.")
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if not isinstance(angle, (int, float)):
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raise TypeError("Invalid angle. Range is 1-90 degrees.")
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# Ensure valid angle
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if angle > 90 or angle < 1:
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raise ValueError("Invalid angle. Range is 1-90 degrees.")
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# Ensure valid velocity
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if init_velocity < 0:
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raise ValueError("Invalid velocity. Should be a positive number.")
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def horizontal_distance(init_velocity: float, angle: float) -> float:
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"""
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Returns the horizontal distance that the object cover
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Formula:
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v_0^2 * sin(2 * alpha)
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---------------------
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g
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v_0 - initial velocity
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alpha - angle
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>>> horizontal_distance(30, 45)
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91.77
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>>> horizontal_distance(100, 78)
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414.76
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>>> horizontal_distance(-1, 20)
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Traceback (most recent call last):
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...
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ValueError: Invalid velocity. Should be a positive number.
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>>> horizontal_distance(30, -20)
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Traceback (most recent call last):
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...
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ValueError: Invalid angle. Range is 1-90 degrees.
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"""
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check_args(init_velocity, angle)
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radians = angle_to_radians(2 * angle)
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return round(init_velocity**2 * sin(radians) / g, 2)
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def max_height(init_velocity: float, angle: float) -> float:
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"""
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Returns the maximum height that the object reach
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Formula:
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v_0^2 * sin^2(alpha)
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--------------------
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2g
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v_0 - initial velocity
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alpha - angle
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>>> max_height(30, 45)
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22.94
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>>> max_height(100, 78)
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487.82
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>>> max_height("a", 20)
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Traceback (most recent call last):
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...
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TypeError: Invalid velocity. Should be a positive number.
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>>> horizontal_distance(30, "b")
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Traceback (most recent call last):
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...
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TypeError: Invalid angle. Range is 1-90 degrees.
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"""
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check_args(init_velocity, angle)
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radians = angle_to_radians(angle)
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return round(init_velocity**2 * sin(radians) ** 2 / (2 * g), 2)
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def total_time(init_velocity: float, angle: float) -> float:
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"""
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Returns total time of the motion
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Formula:
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2 * v_0 * sin(alpha)
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--------------------
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g
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v_0 - initial velocity
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alpha - angle
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>>> total_time(30, 45)
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4.33
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>>> total_time(100, 78)
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19.95
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>>> total_time(-10, 40)
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Traceback (most recent call last):
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...
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ValueError: Invalid velocity. Should be a positive number.
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>>> total_time(30, "b")
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Traceback (most recent call last):
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...
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TypeError: Invalid angle. Range is 1-90 degrees.
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"""
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check_args(init_velocity, angle)
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radians = angle_to_radians(angle)
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return round(2 * init_velocity * sin(radians) / g, 2)
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def test_motion() -> None:
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"""
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>>> test_motion()
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"""
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v0, angle = 25, 20
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assert horizontal_distance(v0, angle) == 40.97
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assert max_height(v0, angle) == 3.73
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assert total_time(v0, angle) == 1.74
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if __name__ == "__main__":
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from doctest import testmod
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testmod()
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# Get input from user
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init_vel = float(input("Initial Velocity: ").strip())
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# Get input from user
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angle = float(input("angle: ").strip())
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# Print results
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print()
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print("Results: ")
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print(f"Horizontal Distance: {str(horizontal_distance(init_vel, angle))} [m]")
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print(f"Maximum Height: {str(max_height(init_vel, angle))} [m]")
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print(f"Total Time: {str(total_time(init_vel, angle))} [s]")
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