Chapter 5 WORK and ENERGY TODAYs OBJECTIVES Recognize
Chapter 5 – WORK and ENERGY
TODAY’s OBJECTIVES • Recognize the difference between the “scientific” and “ordinary” work • Define work by relating it to force and displacement
5. 1 – 5. 3 Work and Energy Vocabulary Work done on an object Joule Kinetic energy Potential energy Gravitational Potential Energy Elastic Potential Energy Spring constant Mechanical Energy
5. 1 WORK
What is work? In everyday language To do something: To learn To kick a ball To think To hold a chair In science The product of the magnitude of the displacement and the component of a force parallel to that
Work is done – when a force causes a displacement Work done on a car Constant horizontal force = F Displacement = Δx = NO WORK is done on the objectdunless the objects moves (i. e. has a displacement)!!! displacement W=F∙d
Work is done – when a force acts on an object AND the object must move in the direction of that force Work done on a crate W=F∙d • NO WORK is done on the object if the force is non – parallel to the direction of the displacement
Example 1 (on a worksheet) IS WORK DONE ON AN OBJECT? A teacher holds a chair at arm’s length for several minutes. A person carries a bucket of water along a horizontal path while walking at constant velocity
Example 1 (on a worksheet) IS WORK DONE ON AN OBJECT? No, chair does not move = no displacement in the direction of force applied No, the upward force that holds the buckets is perpendicular to the displacement of the bucket
1. 1 x 1. 72 4 × 10 2 10 J J, or 17. 2 k. J W = F × d = 300. 0 x 0 = 0 J
Reminder. . . If WORK is done against GRAVITY W=F∙d W = mg ∙ h
POWER Rate of Energy Transfer the rate at which work is done or energy is transformed
POWER the rate at which work is done or energy is transformed Power = force x speed UNITS = J/s = Watt =W
73 W 5. 4 5 × 10 J/h Useable work: 2. 7 × 1011 J Heat: 8. 1× 1011 J
HORSE POWER (hp) • Another unit used • 1 hp = 746 watts
Convert to horsepower.
Reminder. . . If WORK is done against GRAVITY W=F∙d W = mg ∙ h
HOMEWORK Page: 139 - 141 Problems: all 18
WORKSHEET EXAMPLE Many mountain roads are built so that they zigzag up the mountain rather than go straight up toward the peak. Discuss the advantages of such a design from the viewpoint of energy conservation and power
WORKSHEET EXAMPLE A light bulb is described as “having 60 watts. ” watts What’s wrong with this statement?
WORKSHEET EXAMPLE A 193. 0 kg curtain needs to be raised 7. 5 m, at constant speed, in as close to 5. 0 s as possible. The power ratings for three motors are listed as 1. 0 k. W, 3. 5 k. W, and 5. 5 k. W. Which motor is best for the job?
Worksheet EXAMPLE A 193. 0 kg curtain needs to be raised 7. 5 m, at constant speed, in as close to 5. 0 s as possible. The power ratings for three motors are listed as 1. 0 k. W, 3. 5 k. W, and 5. 5 k. W. UNKNOWN GIVEN? Which motor is best for the job? m = 193. 0 kg Δt = 5. 0 s d = 7. 5 m ? P=? watts
WORKSHEET EXAMPLE Two horses pull a cart. Each exerts a force of 250. 0 N at a speed of 2. 0 m/s for 10. 0 min. a. Calculate the power delivered by the horses. b. How much work is done by the two horses?
Investigation 5 – 1 A 1. Read the lab procedure 2. Answer all the Concluding Questions
Investigation 5 – 1 A and 5 – 1 B Two horses pull a cart. Each exerts a force of 250. 0 N at a speed of 2. 0 m/s for 10. 0 min. a. Calculate the power delivered by the horses. b. How much work is done by the two horses?
ANSWERS TO WORKSHEET EXAMPLES
Example 1 (on a worksheet) IS WORK DONE ON AN OBJECT? No, chair does not move = no displacement in the direction of force applied No, the upward force that holds the buckets is perpendicular to the displacement of the bucket
WORKSHEET EXAMPLE Many mountain roads are built so that they zigzag up the mountain rather than go straight up toward the peak. Discuss the advantages of such a design from the viewpoint of energy conservation and power Assuming mechanical energy is conserved, the same amount of energy is needed to reach the top in both cases. Because the same amount of work must be done, the path with a longer distance takes more time and hence requires less power.
WORKSHEET EXAMPLE A light bulb is described as having 60 watts. What’s wrong with this statement? Light bulbs don’t have the energy stored within them; energy is transferred to them in the form of electricity at a rate of 60 J/s.
WORKSHEET EXAMPLE Two horses pull a cart. Each exerts a force of 250. 0 N at a speed of 2. 0 m/s for 10. 0 min. a. Calculate the power delivered by the horses. b. How much work is done by the two horses?
- Slides: 30