Why is mass independent of projectile motion?
The vertical motion is controlled by the gravity because it acts in vertical direction only, no matter in what direction the projectile is moving. And, the acceleration produced due to gravity is independent of the object’s mass. So, the vertical motion is independent of the mass.
Does the range of a projectile depend on its mass?
A projectile is defined as an object that is in flight after being thrown from ground, at a very high velocity in air. Here, we can see that the range only depends on the initial velocity and angle of projection and not the mass of the projectile.
How does mass of an object affect the distance the projectile travels?
The heavy object will feel small changes to its speed (its acceleration is close to zero), while the light object will slow down a lot (its acceleration is a large negative number). In the end, the heavy object will travel farther, since it was less affected by air resistance.
Which of the following is are independent of mass during the projectile motion?
Which of the following is/are independent of mass during the projectile motion? Notes: The Time of Flight, Horizontal Range and the Maximum Height of an object are independent of mass of the object during the projectile motion.
Why is mass not relevant in projectile motion?
When an object is dropped from a tower, mass does not affect final velocity or time. When writing equations of motion for a dropped object, mass is in the equations in 2 places and they cancel out. That is basically the reason that mass does not affect the results of analysis of a projectile.
How does mass affect projectile motion with air resistance?
As the mass gets large enough, the force of gravity becomes much larger than the air drag force in the vertical direction, and the air drag force becomes negligible. This results in a trajectory nearly the same as when air resistance is turned off.
What two factors affect the range of a projectile?
Figure 1: Trajectory Plot for Angled-Launched Projectiles During its flight through the air, the horizontal speed of the projectile remains constant; the vertical speed changes due to gravity. The horizontal distance depends on two factors: the horizontal speed (vox) and the time the projectile has been in the air.
How does the range of projectile depends upon its velocity?
The horizontal range of projectile is directly proportional to square of velocity by which the body is projected.