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Worksheet Problem 5

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Title: Energy and power Author: Richard Barrans Last modified by: Richard E. Barrans Jr. Created Date: 4/4/2005 4:39:47 AM Document presentation format – PowerPoint PPT presentation

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Title: Worksheet Problem 5


1
Worksheet Problem 5
  • A kinematic formula derived in Chapter 2 for
    conditions of constant acceleration relates
    speed, acceleration, and displacement
  • 2a (x x0) v2 v02.
  1. Multiply both sides of this equation by m/2.
  2. Explain the resulting formula in terms of the
    work-energy theorem.

2
Worksheet Problem 6
  • This is a type of question popular on drivers
    license exams If a car initially traveling 30
    mi/h skids to a stop in 100 ft, how far will it
    skid before coming to a stop if its initial speed
    is 60 mi/h?
  1. What force is responsible for the net force on
    the skidding car?
  2. How does the stopping time depend on initial
    speed?
  3. To what quantity is stopping distance
    proportional?
  4. What is the answer to the drivers license exam
    question?
  5. Explain the result without referring to work or
    kinetic energy.

3
Gravitational Potential Energy
  • Energy of height

7.1
4
Potential Energy
  • The energy of relative position of two objects

gravity springs electric charges chemical bonds
5
Potential Energy
  • Energy is stored doing work against a potential

Potential energy increases when the potential
does negative (lt 0 ) work
  • lifting a weight
  • stretching a spring

6
Gravity Does Negative Work
Source Young and Freedman, Figure 7.2b.
7
Work from Potential Energy
  • When a potential does work on a body
  • The bodys potential energy decreases
  • The bodys kinetic energy increases
  • Or, more than one potential can operate at once

8
CPS Question
  • When a cute furry animal moves downward in
    free-fall
  1. Its gravitational potential energy increases.
  2. Its kinetic energy increases.
  3. Both A and B.
  4. Neither A nor B.

9
Gravity Does Positive Work
Source Young and Freedman, Figure 7.2a.
10
CPS Question
  • When a disgusting scaly thing moves upward in
    free-fall
  1. Its gravitational potential energy increases.
  2. Its kinetic energy increases.
  3. Both A and B.
  4. Neither A nor B.

11
Worksheet Problem 7
  • A small rock with a mass of 0.20 kg is released
    from rest at point A at the top of a
    hemispherical bowl of radius R  0.5 m. The rock
    slides rather than rolls. The work done by
    friction when it moves from A to B is 0.22 J.
    What is the speed v of the rock when it reaches
    point B?

A
R
v
B
12
CPS Question
  • As the rock slides down the trough, the normal
    force on it depends on
  1. The local slope of the trough.
  2. The rocks speed.
  3. Both of these.

A
R
v
B
13
Mechanical Energy
  • The energy available to do work

Kinetic potential K U
14
Gravitational Potential Energy
  • Gravitational potential energy
  • the work to raise an object to a height
  • Gravitational U mgh

15
Conservation of Mechanical Energy
  • If the only force doing work is gravity,
    mechanical energy does not change.
  • E1 E2
  • K1 Ug1 K2 Ug2
  • 1/2 mv12 mgy1 1/2 mv22 mgy2

16
Worksheet Problem 8
  • A 50-g egg released from rest from the roof of a
    30-m tall building falls to the ground. Its fall
    is observed by a student on the roof of the
    building, who uses coordinates with origin at the
    roof, and by a student on the ground, who uses
    coordinates with origin at the ground. What
    values do the students find for
  1. Initial gravitational potential energy Ugrav 0?
  2. Final gravitational potential energy Ugrav f?
  3. Change in gravitational potential energy DUgrav?
  4. Kinetic energy just before impact Kf?

17
Worksheet Problem 9
  • Your cousin Throckmorton, m  20 kg, plays on a R
    1.5-m swing. What is his change in
    gravitational potential energy as he swings from
    an angle q  p/6 from vertical down to q  0?
  1. If the height of the swing pivot is 0, what is
    Throckmortons height h at q  p/6? At q  0?
  2. What is his change in height Dh?
  3. What is his change in potential energy DUgrav?
  4. What is his speed at the bottom?
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