Download presentation
Presentation is loading. Please wait.
1
Physics 11 Mr. Jean April 19th, 2012
2
The plan: Video clips of the day Work Potential energy kinetic energy
Gravitational potential kinetic energy
3
Physics wins!
4
Quick Field Trip: To the LAB! ….. Add in physics theme song here….
5
Work: In physics work is the product of the force and the total change of distance. W = F∆d W = Energy required to move an object in joules (J) F = Newton’s of force required to move an object (N) d = Total distance moved (m)
6
Example: A force of 800N is required to push an object. The object is pushed at a constant rate of speed for 3 meters. How much work was needed to move this object? 800N x 3m = 2400J 2400J of energy were needed.
7
Kinetic Energy:
8
Units:
9
Kinetic Energy Example:
A 6kg curling stone is at rest. It is accelerated to 20m/s. Calculate the kinetic energy at rest. 2) Calculate the kinetic energy in motion.
10
Frame the problem: Key points: The stone started out at rest
A moving object has kinetic energy. An object at rest has no kinetic energy. The amount of kinetic energy is directly related to the stones mass and velocity.
12
Potential Energy: This is the energy which is stored in an object.
Example: A rock sitting on a desk has potential energy (The rock could fall). The height difference from the table to the ground creates a potential energy.
13
Potential Energy Units:
14
Example: What is the potential energy stored if a 3kg rock is 0.68 meters above the ground?
17
ENERGY = JOULES What I would like to accomplish with this example is to show you (and prove to you) that the unit joules are the same for Work, Potential Energy, and Kinetic Energy
18
Situation: A 2.5 kg brick is pick up off the ground. It is raised 1.5 meter, it stays there for 5 seconds, then dropped back to the ground.
19
Work: Calculate the work involved with lifting the brick.
Work = Force x Distance
20
Work: Calculate the work involved with lifting the brick.
Work = Force x Distance Work = (2.5kg)(-9.81m/s2) x 1.5m Work = J
21
Potential Energy: Calculate the potential Energy of a brick which is resting 1.5 meters in the air. Eg= mgh
22
Potential Energy: Calculate the potential Energy of a brick which is resting 1.5 meters in the air. Eg = mgh Eg = (2.5kg) (-9.81)(1.5m) Eg = N m
23
Kinetic Energy: After the brick is released calculate the kinetic energy as the brick hits the ground. Ek = 0.5(m)(v2) v 2 = vo2 + 2ad
24
Kinetic Energy: Ek = 0.5(m)(v2) v 2 = vo2 + 2ad
v2 = 0 + 2(-9.81m/s2)(1.5m) v2 = m2 / s2 Ek = 0.5(2.5kg)(29.43 m2 / s2) Ek = J
25
Summary: Work = 36.79 J Potential Energy = 36.79 J
Kinetic Energy = J The joules are the same when looking at these three formulas.
26
Try This: Prove that work, Potential Energy, and Kinetic energy are the same for the following: A block sitting at 0meters is slide up a frictionless inclined plane to a height of 80 meters. The block is then held in place for 5 minutes. The block is then released.
Similar presentations
© 2024 SlidePlayer.com. Inc.
All rights reserved.