Directions: Find both the kinetic energy (KE) and potential energy (GPE) for the situation using the correct formula. Then determine the mechanical energy (ME) for the situation. Make sure to answer parts A, B, and C for the problem.

3. A 4-kg bowling ball rolls at a speed of 7 m/s on the roof of the building that is 164 m tall.

a. What is the Kinetic Energy (KE) of the bowling ball?

b. What is the Potential Energy (PE) of the bowling ball?

c. What is the TOTAL MECHANICAL ENERGY (ME) of the bowling ball?

Question

Directions:  Find both the kinetic energy (KE) and potential energy (GPE) for the situation using the correct formula. Then determine the mechanical energy (ME) for the situation. Make sure to answer parts A, B, and C for the problem.

3.	 A 4-kg bowling ball rolls at a speed of 7 m/s on the roof of the building that is 164 m tall.

a.	 What is the Kinetic Energy (KE) of the bowling ball?

b.	 What is the Potential Energy (PE) of the bowling ball?

c.	 What is the TOTAL MECHANICAL ENERGY (ME) of the bowling ball?

CrumbCrumbington · Answer

the bowling balls energy is none because he's sleeping

cgunter55 · Answer

@crumbcrumbington wrote:

the bowling balls energy is none because he's sleeping

That's funny

Angrbrdreturns · Answer

Bro really copied and pasted the whole ahh question

umm · Answer

a. To find the Kinetic Energy (KE) of the bowling ball, consider the mass (4 kg) and velocity (7 m/s) to calculate it using the approximate formula.

b. Now determine the Potential Energy (PE) of the bowling ball, utilize the mass (4 kg), height (164 m), and the gravitational acceleration (approximately 9.8 m/s^2) in the relevant formula.

c. Calculate the Total Mechanical Energy (ME) by adding the Kinetic Energy (KE) and Potential Energy (PE) obtained in parts a and b and you should have your answer.

Would try and explain this better, but it’s easier done on computer than it is on mobile.

Conqueror99 · Answer

Yawn

Angrbrdreturns · Answer

@conqueror99 wrote:

Yawn

Same