# How do you find time to reach maximum height in projectile motion?

## How do you find time to reach maximum height in projectile motion?

Determine the time it takes for the projectile to reach its maximum height. Use the formula (0 – V) / -32.2 ft/s^2 = T where V is the initial vertical velocity found in step 2. In this formula, 0 represents the vertical velocity of the projectile at its peak and -32.2 ft/s^2 represents the acceleration due to gravity.

What is the formula for time to reach maximum height?

⟹ t≈2 s.

What is the formula for maximum height in projectile motion?

h = v 0 y 2 2 g . This equation defines the maximum height of a projectile above its launch position and it depends only on the vertical component of the initial velocity.

### What is the formula of range in projectile motion?

Range. The range of the motion is fixed by the condition y=0 . Using this we can rearrange the parabolic motion equation to find the range of the motion: R=u2⋅sin2θg R = u 2 ⋅ sin ⁡ 2 θ g .

What is the maximum height of a projectile?

The maximum vertical distance that it can reach is called maximum height. Here we are going to derive the equations for all this values.We are ignoring all the impact of air friction on the motion of the body during this study for simplicity.

What is the time it takes for a projectile to reach the ground?

The time taken by the projectile to reach the ground from the point of projection is called Time of flight. The maximum vertical distance that it can reach is called maximum height.

## What is the vertical velocity of a projectile?

At the maximum height h attained by the projectile, the vertical velocity is zero. The time of flight of a projectile is the time interval between the instant of its launch and the instant when it hits the ground.

How is the range of an object determined in projectile motion?

In the horizontal direction, the object travels at a constant speed v0 v 0 during the flight. Therefore, the range R R (in the horizontal direction) is given as: The initial launch angle (0-90 degrees) of an object in projectile motion dictates the range, height, and time of flight of that object.