PHYSICS 50: Lecture 6-1 RICHARD CRAIG. Today Exam Review Grades New Homework Chapter 6 Work, Energy and Power “Quiz”

Slides:

Advertisements

Similar presentations

Announcements Test 1 next Thursday, 5–7 PM Covers material in Chapters 2–5 Review session –Monday 5:30–7 PM, CR 103 –Bring your questions.

Advertisements

Kinetic Energy and Work Chapter 7. Work and Energy Energy: scalar quantity associated with a state (or condition) of one or more objects. Work and energy.

The concept of energy (and the conservation of energy – chapter 8) is one of the most important topics in physics. Work Kinetic energy Energy approach.

Physics 7C lecture 06 Work and Energy

Instructor: Dr. Tatiana Erukhimova

Dr. Jie Zou PHY 1151G Department of Physics1 Chapter 7 Work and Kinetic Energy (Continued)

Work and Kinetic Energy. Work Done by a Constant Force The definition of work, when the force is parallel to the displacement: (7-1) SI unit: newton-meter.

Physics 218: Mechanics Instructor: Dr. Tatiana Erukhimova Lecture 23.

Dr. Jie Zou PHY 1151G Department of Physics1 Chapter 7 Work and Kinetic Energy (Continued)

Chapter 7 Work and Kinetic Energy. Units of Chapter 7 Work Done by a Constant Force Kinetic Energy and the Work-Energy Theorem Work Done by a Variable.

Kinetic Energy Kinetic energy is energy of motion. Kinetic energy is a scalar quantity. KE = ½ mv 2 kinetic energy = ½ mass x (speed) 2 Units for KE are.

Kinetic energy Vector dot product (scalar product) Definition of work done by a force on an object Work-kinetic-energy theorem Lecture 10: Work and kinetic.

PHYSICS 50: Lecture 5.1 RICHARD CRAIG. Goals for Today Quiz Review Homework Example of understanding questions New topic: Friction Examples Car on a curved.

Wednesday, 12/10/14PHYSICS If you do the same old things, you get the same old results!

In this chapter you will:  Recognize that work and power describe how the external world changes the energy of a system.  Relate force to work and explain.

Chapter 5 Work, Energy, Power Work The work done by force is defined as the product of that force times the parallel distance over which it acts. The.

Mechanical Work and Power: Learning Goal The student will use appropriate terminology related to energy including work, gravitational potential energy,

Chapter 6.  Energy is “conserved” meaning it can not be created nor destroyed Can change form Can be transferred  Total energy does not change with.

Work and Kinetic Energy Teacher: Luiz Izola

Chapter 10 Work and Energy

Physics 3.3. Work WWWWork is defined as Force in the direction of motion x the distance moved. WWWWork is also defined as the change in total.

Mechanics 105 Work done by a constant force Scalar product Work done by a varying force Kinetic energy, Work-kinetic energy theorem Nonisolated systems.

Physics Lecture 31 Instructor: John H. Hamilton. Lecture overview This week, Work and Energy Work – What work is – How is work calculated Power – Calculating.

Chapters 6, 7 Energy.

Work, Kinetic Energy, and Power. v f 2 = v i 2 + 2ad and F = ma v f 2 -v i 2 = 2ad and F/m = a v f 2 -v i 2 = 2(F/m)d Fd = ½ mv f 2 – ½ mv i 2 Fd = Work.

Work & Energy Chapters 7-8 Work Potential Energy Kinetic Energy Conservation of Mechanical Energy.

Energy Examples Serway and Jewett 8.1 – 8.3 Physics 1D03 - Lecture 22.

Work, Energy, and Energy Conservation Chapter 5, Sections Pg

Energy Lecture Slide 1 Work & Energy. Energy Lecture Slide 2 Work Work = (Force in direction of motion)*distance W, Joule (J) = N-m 1 J is work done in.

A 19-kg block on a rough horizontal surface is attached to a light spring (force constant = 3.0 kN/m). The block is pulled 6.3 cm to the right from.

Chapter 7 - Work and Energy

Power is the rate at which work is done.

Kinetic Energy and Work

5.4 The Work-Energy Theorem and Kinetic Energy

Physics 1D03 - Lecture 19 Kinetic Energy. Physics 1D03 - Lecture 19 Then the Work-Energy Theorem says: The total work done by all external forces acting.

Work done is the energy transferred when a force moves an object over a distance. Since work is energy transferred, the unit for work is the joule (J).

Work, Power, Energy. Work Concepts Work (W) ~ product of the force exerted on an object and the distance the object moves in the direction of the force.

Work and Energy. Work Done by a Constant Force Work: The __________done by a constant ________acting on an object is equal to the product of the magnitudes.

 Work  Energy  Kinetic Energy  Potential Energy  Mechanical Energy  Conservation of Mechanical Energy.

Chapter 10 ENERGY, WORK, AND SIMPLE MACHINES. Demonstrate a knowledge of the usefulness of simple machines. Differentiate between ideal and real machines.

Physics 101: Lecture 9, Pg 1 Physics 101: Lecture 9 Work and Kinetic Energy  Hour Exam 1, Tomorrow! – Exam 2.

Work and Energy 1.Work Energy  Work done by a constant force (scalar product)  Work done by a varying force (scalar product & integrals) 2.Kinetic Energy.

Physics 218: Mechanics Instructor: Dr. Tatiana Erukhimova Lectures 16, 17, 18.

Copyright © 2010 Pearson Education, Inc. Lecture Outline Chapter 7 Physics, 4 th Edition James S. Walker.

Work and Energy المحاضرة الثامنة. Works and Energy Chapter 7.

FOR SCIENTISTS AND ENGINEERS physics a strategic approach THIRD EDITION randall d. knight © 2013 Pearson Education, Inc. Chapter 11 Lecture.

Energy of Simple Harmonic Motion

Three things necessary to do Work in Physics:

Chapter 7: Work and Kinetic Energy-1

Work and Power Quiz Solutions

Chapter 7 Kinetic Energy and Work 第7章動能與功

Chapter 5 Work and Energy

Kinetic Energy and Work

Lecture Outline Chapter 7 Physics, 4th Edition James S. Walker

Work, Energy, and Power.

Chapter 7: Work; Energy of a System

Work, Force and Motion.

Work and Energy.

Mechanical Work and Power: Learning Goal

Mechanical Energy.

What is work Chapter 4 section 1.

What do we want to do today?! Sunday:

Have you ever used Mathematica?

Work and Energy Chapter 5 Mrs. Schwartz.

Question C Force and Motion F F m F F m d d

Work, Energy, Power.

Work and Energy Chapter 5 Physics.

Chapter 8 – Work and Energy

T101-Q-1 Figure 1 shows the spring force as a function of position x for a spring-block system resting on a frictionless table. The block is released at.

Presentation transcript:

PHYSICS 50: Lecture 6-1 RICHARD CRAIG

Today Exam Review Grades New Homework Chapter 6 Work, Energy and Power “Quiz”

Exam 1 Grades Average 55 (raw), 76(curved)

Homework #5 Read Chapter 6 Exercises and Problems: 6.3, 6.16, 6.23, 6.33, 6.43, 6.85 Due Thursday, 3/6

Work, a force through a distance

Work done on an object can change its motion and energy.

Important Ideas Work Force times Distance (Nm = Joules) Work Energy theorem Work = change in energy Kinetic Energy Energy associated with motion Power Rate of doing work (J/s = Watts)

Example: Pushing a block Push a 5kg block horizontally on a frictionless surface for 10m with a force of 10N Work? Speed? Change in Energy? Power?

Refer to Figure 6.3. Follow worked Example 6.1. Only the Parallel component of the force does work

Stepwise solution of work done by several forces Sum of the work by each force Is equal to the work done by the net force Tractor pulls a load of logs with constant force