How Is the Average Acceleration Calculated for a Bouncing Ball?

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SUMMARY

The average acceleration of a bouncing ball dropped from 4 feet and rebounding to 3 feet is calculated to be 3000 ft/sec², as confirmed by the book. The average acceleration is defined as \(\frac{\Delta V}{\Delta t}\), where \(\Delta V\) is the change in velocity. To find \(\Delta V\), the speed at impact and the speed needed to reach 3 feet must be determined using the equations of motion: \(d = -16t^2 + 4\) for the fall and \(d = -16t^2 + V_0t\) for the ascent. Solving these equations yields the necessary velocities for accurate calculations.

PREREQUISITES
  • Understanding of basic physics concepts, particularly kinematics
  • Familiarity with equations of motion, specifically \(d = -16t^2 + h\)
  • Knowledge of how to calculate velocity and acceleration
  • Ability to solve simultaneous equations
NEXT STEPS
  • Study the equations of motion in detail, focusing on vertical motion under gravity
  • Learn how to derive velocity and acceleration from displacement over time
  • Explore practical applications of average acceleration in real-world scenarios
  • Investigate the effects of different heights on the rebound velocity of balls
USEFUL FOR

Physics students, educators, and anyone interested in understanding the dynamics of motion, particularly in relation to bouncing objects and kinematic equations.

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A ball is dropped from 4 ft and rebounds back to 3 feet. If the ball was in contact with the ground for 0.01 seconds, then what is the average acceleration of the ball during contact? The answer on the back of the book is 3000 ft/sec^2. So average acceleration is defined as [tex]\frac{\Delta V}{\Delta t}[/tex]. So [tex]\frac{x}{0.01}[/tex]. Then [tex]\Delta V = 30[/tex]. How would you get 30?

Thanks
 
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You need to calculate the speed at impact for a ball dropped from 4 feet, and the speed it would need to have when leaving the floor to rise to a height of 3 feet. Take the difference between the two velocities (speed and direction) to get [tex]\Delta V[/tex]
 
A ball falls a distance of 4 feet. You know d= -16t2+ 4 and d= 0 when the ball hits the floor. Solve -16t2+ 3= 0 to find how long the ball was falling. Of course, V= -32t so you can find the speed of the ball as it hits the floor.
(And it will be negative, of course.)

On the way up, V= -32t+ V0 and d= -16t2+ V0t where V0 is the speed just as the ball is leaving the floor. Of course, at the ball's highest point V= 0 so you have the two equations -32t+ V0= 0 and -16t2+ V0t= 3 to solve for V0. (Since there are two equations you can solve for both V0 and t but V0 is all you need to find.)

The change in the ball's velocity during the bounce is V0 minus the first V you found (which, remember, was negative).
 

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