Projectile Motion: Force vs. Time and Impulsive Force Analysis

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In projectile motion, the primary force acting on the object is gravity, which exerts a constant downward force throughout its flight. The force versus time graph for a projectile in free fall, neglecting air resistance, would appear as a flat line representing this constant gravitational force. Impulsive forces are typically associated with inelastic collisions, not the motion of the projectile itself. The analysis of projectile motion can be simplified by considering the initial speed and launch angle, which can be derived from the maximum height and range. Understanding these dynamics is crucial for accurately calculating the motion of projectiles.
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A projectile is fired with speed v at an angle with respect to the horizontal. Assume no air resistance. The projectile returns to the same level and it has a range R and altitude H.

Whats the impulsive force in the case of the projectile? what does the F vs. t for the projectile look like?
 
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leykis101 said:
what does a force versus time graph look like for a projectile?

Can you be more specific? If you just mean an object in the air here on Earth, neglecting wind resistance, the force is always the same; gravity pulls down. Constantly. So... is the answer you want just "a flat line"? Surely you wanted more than that.
 
Typically impulses are used with inelastic collisions, such as a projectile hitting another object and indenting it somewhat. For example, imagine dropping a golf ball into a bowl of sand.

Please be more specific as to which forces you are trying to calculate. If it is a homework problem, post the whole question.
 
Assuming a flat Earth here (R small compared to Earth's radius). Speed v, and angle of initial launch can be determined from maximumum height H and range R.

The force depends on how long it takes to go from speed 0 to speed v and the mass of the projectile. The simplest case would be an idealistic constant force "cannon".
 

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