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An ideal projectile is a simplified concept in physics that represents a projectile with no air resistance, moving only under the force of gravity. In this ideal scenario, the only force acting on the projectile is gravity, allowing for simpler calculations and analysis of its motion. Ideal projectiles follow a parabolic path when launched at an angle.
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How high does projectile go?
The maximum height of a projectile depends on its initial velocity and launch angle. In ideal conditions, the maximum height occurs when the launch angle is 45 degrees, reaching a height equal to half the maximum range of the projectile.
How does air resistance affect the components of projectile motion?
Air resistance acts as a resistive force that opposes the motion of the projectile. It causes the projectile to experience a decrease in speed and alters its trajectory, leading to shorter horizontal distances and lower maximum heights compared to ideal projectile motion in a vacuum. Additionally, air resistance can cause the projectile to fall at a steeper angle compared to when it is neglected.
When projectile has maximum horizontal range?
A projectile has maximum horizontal range when it is launched at an angle of 45 degrees to the horizontal. This angle allows for the ideal balance between the horizontal and vertical components of the projectile's velocity, ensuring that it travels the farthest distance before hitting the ground.
An object that is thrown is called?
a projectile is the answer
How those air resistance affect the vertical and horizontal velocity of a projectile calculation?
Air resistance will slow down both the vertical and horizontal velocity of a projectile. In vertical motion, it will decrease the upward velocity and decrease the time the projectile spends in the air. In horizontal motion, it will reduce the forward velocity and cause the projectile to fall short of its ideal range.
