Warning: include(/home/smartonl/royalcustomessays.com/wp-content/advanced-cache.php): failed to open stream: No such file or directory in /home/smartonl/royalcustomessays.com/wp-settings.php on line 95

Warning: include(): Failed opening '/home/smartonl/royalcustomessays.com/wp-content/advanced-cache.php' for inclusion (include_path='.:/opt/alt/php56/usr/share/pear:/opt/alt/php56/usr/share/php') in /home/smartonl/royalcustomessays.com/wp-settings.php on line 95
Potential and Kinetic Energy – RoyalCustomEssays

Potential and Kinetic Energy

Disaster policy and politics
September 21, 2018
Comparative Analysis Problem: Amazon vs. Wal-Mart Stores, writing homework help
September 21, 2018

Potential and Kinetic Energy

Name:

 

Date:

 

Instructor’s Name:

 

Assignment: SCI103 Phase 5 Lab Report

 

TITLE: Potential and Kinetic Energy

 

INSTRUCTIONS: Enter the Virtual Lab and conduct the experiments provided. Please type your answers on this form. When your lab report is complete, submit it to the Submitted Assignments area of the Virtual Classroom.

 

 

Part I – Answer the following questions while in the Phase 5 lab environment.

 

Section 1 – From the left of the screen to the right, the red balls have a center of mass placed at 20 feet, 15 feet, and 10 feet high respectively.

  1. Suppose each red ball weighs 20 lbs. Find the potential energy (PE) for each ball on each ramp.  In this lab mass is given in pounds and height is in feet, so use 2 ft/sec2 as the gravitational constant.  Your answer will be in foot-pounds since US units are being used.

 

PE = m g h     where g = 32.2 ft/sec2

 

Ramp 1:

 

 

Ramp 2:

 

 

Ramp 3:

 

 

  1. Predict the maximum speed (velocity) of each ball on each ramp. How would this speed change if each ball’s mass was doubled?  ASSUMPTION: assume there is no friction and that all the potential energy you calculated in question 1 is transformed into kinetic energy – PE = KE.  Use the following equation.

 

KE= ½ m v

You want to calculate v maximum speed

v = [KE/ ½ m]½

 

This means divide the KE by half the mass and then take the square root.

 

 

 

 

  Max v for 20 lb. ball Max v for 40 lb. ball
Ramp 1    
Ramp 2    
Ramp 3    

 

Section 2 (Each of the green balls has a center of mass placed at 20 feet high).  While each ramp looks identical, each ramp has a different amount of friction.

  1. Which ramp has the greatest friction?
  2. Suppose each green ball weighs 10 lbs. Assuming there is no friction, calculate the potential energy for each ball on each ramp.

 

  1. Again assuming there is no friction; predict the maximum speed of the ball on each ramp. On which ramp does the ball come closest to achieving this max speed?

 

 

Use this table to organize your calculated values

  PE Max Seed (v)
Ramp 1    
Ramp 2    
Ramp 3    

 

 

Part II – For the following questions, provide your response in short answer format (2-3 sentences each). Use this Phase’s activities and resources to assist you in answering:

  1. What is Potential Energy (PE)? Give examples from the lab.

 

 

  1. What is Kinetic Energy (KE)? Give examples from the lab.

 

 

 

  1. What is Inertia?

 

 

  1. What is Gravity? How is it a type of potential energy?

 

 

  1. What is Mass and how does it affect energy?

 

 

 

  1. How do Potential and Kinetic energy (gravity and mechanical force) apply to the Law of Conservation of Energy?

 

 

  1. What is Friction? How does it affect energy use?

Potential and Kinetic Energy

Place Order