The maximum height it reaches on the Moon is greater than the maximum height reached on the Earth.
<h3>Further explanation</h3>
Acceleration is rate of change of velocity.
<em>a = acceleration ( m/s² )</em>
<em>v = final velocity ( m/s )</em>
<em>u = initial velocity ( m/s )</em>
<em>t = time taken ( s )</em>
<em>d = distance ( m )</em>
Let us now tackle the problem!
<em>We will use following formula to solve this problem:</em>
From above formula , we can conclude that the maximum height is inversely proportional to the gravitational acceleration.
Gravitation acceleration on the moon is less that gravitational acceleration on the earth. Therefore , the maximum height it reaches on the Moon is greater than the maximum height reached on the Earth.
<h3>Learn more</h3>
<h3>Answer details</h3>
Grade: High School
Subject: Physics
Chapter: Kinematics
Keywords: Velocity , Driver , Car , Deceleration , Acceleration , Obstacle , Projectile , Motion , Horizontal , Vertical , Release , Point , Ball , Wall