LESSON 3-4, AN INTRODUCTION TO MECHANICAL TECHNOLOGY ENGINEERING DESIGN.

Slides:

Advertisements

Similar presentations

Chapter 12 – Work and Machines

Advertisements

Monday, September 16, 2013 Mrs. Hensley Sedgefield Middle School.

Simple Machines.

Chapter 5 Work and Machines

CHAPTER 5: WORK AND MACHINES. WORK WORK IN THE SENSE OF SCIENCE IS DIFFERENT THAN WHAT MOST PEOPLE CONSIDER WORK AS BEING. WORK IN THE SENSE OF SCIENCE.

Simple Machines and Work Amy Johnson. Simple Machines  Strand 2 – Properties and Principles of Force and Motion  Objective 2 – Forces effect motion.

Forces What is a Force? Push or Pull What does it do? Causes Motion How do we describe it? Size (magnitude) Direction.

Work Work happens when a force moves an object over a distance.

Transfer kinetic energy (the energy of motion) Reduce the effort needed to move a load Change the direction or amount of motion Change the type of motion.

Calculating Mechanical Advantage Inclined Plane, Pulley, Lever.

Hosted by Miss Dell Work, Power, Machines Simple Machines Calculations Mechanical Advantage

Simple Machines.

Section 10.2 Machines Objectives

Simple Machines Machines Lever Inclined plane Pulley Screw Wedge Wheel & axle.

Simple Machines Device that makes doing work easier is a machine Machines increase applied force and/or change direction of applied force to make work.

Work and Machines Chapter 5 Sec 2. What is a Machine?  Any device that makes work easier.

Motion, Forces, and simple Machines Andrew Lisbon Tuesday 5/6/2014.

Forces What is a Force? Push or Pull What does it do? Causes Motion How do we describe it? Size (magnitude) Direction.

Work & Power How the world works….. Define / Describe WORK Work is done when a force causes an object to move in the direction that the force is applied.

My study of simple machines

Work & Power Simple & Compound Machines Mechanical & Ideal Mechanical Advantage Efficiency By: Deborah Wang modified by: S. Ingle.

CHAPTER 5 Work and Machines. DEFINITIONS Effort Force - (F e ) the force put into a machine Resistance Force - (F R ) the force moved by a machine Weight.

Work & Power How the world works….. Define / Describe WORK Work is done when a force causes an object to move in the direction that the force is applied.

S8P3. Students will investigate relationship between force, mass, and the motion of objects. c. Demonstrate the effect of simple machines (lever, inclined.

Grade 7/8 Systems in Action JEOPARDY T H I S I S J E O P A R D Y.

Chapter Three : work and simple machines

Chapter Three : work and simple machines

1. Friction – a force that acts like a brake on moving objects.

Physics Vocabulary 5 th Grade Term 3. Energy energy- the ability to do work or cause change kinetic- the energy of motion potential- energy of position.

Work What is work? Is the product of force and distance. When a force acts on an object in the direction the object moves. Some of the force has to cause.

 Work, Mechanical Advantage, & Simple Machines making jobs easier.

Chapter 10 Energy, Work, and Simple Machines

Simple Machines Work and Simple Machines What is a Simple Machine?  A simple machine has few or no moving parts.  Simple machines make work easier.

Unit 6 – Lecture 1. Work Work = force applied over a certain distance [force and distance are in the same direction] W = F * d Force (F) is measured in.

UNIT TWO: Motion, Force, and Energy  Chapter 4Motion  Chapter 5Force  Chapter 6Newton’s Laws of Motion  Chapter 7 Work and Energy.

Physics Review Day 2. Energy Energy is conserved in a system, it can not be created or destroyed Energy is simply defined as Work There are two types:

Vocabulary of Instruction:

Motion, Forces, and Energy Chapter 1: Motion. Recognizing Motion: Motion: –When an object’s distance changes relative to a frame of reference Frame of.

Simple Machines. I. The simple machine A. Types of Simple Machines… 1. Lever 2. Pulley 3. Wheel and axle 4. Screw 5. Wedge 6. Inclined plane.

REVIEW Work Power and Machines. What Is Work? Key Concepts  Work is done on an object when the object moves in the same direction in which the force.

Mechanical Advantage The measurement of how useful a machine is to the job.

Work Work: using a force for a distance W = F x d

Simple Machines Work and Simple Machines What is a Simple Machine?  A simple machine has few or no moving parts.  Simple machines make work easier.

Machine – device that makes work easier

Work, Power, and Machines Glencoe Chapter 5. A. Work is the transfer of energy that occurs when a force makes an object move. 1. For work to occur, an.

Forces What is a Force? Push or Pull What does it do? Causes Motion How do we describe it? Size (magnitude) Direction.

Simple Machines Foldable

Ch14 Concepts Efficiency Work Work Power Power Machines Machines 1.

Chapter 8 Work and Machines Work Simple Machines Power Simple Machines

Motion & Forces Vocabulary

Work and Machines  Work is a form of energy. It is the energy that it takes to cause things to move. Sometimes called Mechanical Energy. The Formula.

What is a simple machine? Section 5-1. Machines Makes work easier by changing the size of a force, the direction of a force, or the speed of a force.

Unit 2, Chapter 5 Integrated Science. Unit Two: Work and Energy 4.1 Force and Machines 4.2 The Lever 4.3 Gears and Design Chapter 4 Machines and Mechanical.

Unit D: Mechanical Systems What is a Simple Machine?  A simple machine has few or no moving parts.  Simple machines make work easier 2.

Simple Machines. Forces and Motion Force is a push or a pull. The amount of force you have to use on an object depends on its mass. Motion is a change.

Foundations of Technology.  Common components (levers, inclined planes, wedges, wheels and axles, pulleys, screws, gears, cams, linkages, shafts, couplings,

Chapter 11 work and machines. Anytime that you exert a force and cause an object to move in the direction of the applied force you do _________. work.

Simple Machines, Mechanical Advantage, and Work. Machines  Machines make work easier by changing direction of a force, multiplying a force, or increasing.

8th Grade Physical Science

Simple Machines Device that makes doing work easier is a machine

Chapter 14 – Work and Machines

Work, Simple Machines, and Mechanical Advantage

Chapter 8 Rotational Equilibrium and Dynamics

Lesson 3-4, An Introduction to Mechanical Technology

REVIEW Work is done whenever a force moves an object over a distance.

Work, power, and machines

Unit Three Vocabulary Force and motion.

How the world works…. F. Ishmael

Forces How do we describe it? Size (magnitude) Direction

Presentation transcript:

LESSON 3-4, AN INTRODUCTION TO MECHANICAL TECHNOLOGY ENGINEERING DESIGN

OBJECTIVES Explain how mechanical systems enhance human capabilities Describe the factors that affect a mechanical system’s efficiency Analyze the functioning of the mechanical systems in the designed world Apply engineering design process to solve a problem

MECHANICAL TECHNOLOGY The assembly of mechanical components to produce, control, and transmit motion.

COMMON COMPONENTS Levers Inclined planes Wedges Wheels and axels Pulleys Screws Gears Cams Linkages Shafts Couplings Cables Bearings Brakes clutches

SIMPLE CONTROLS Complex systems may have layers of controls Some controls operate particular parts of the system, while others control other controls Even the most fully automatic systems require human control at some point.

PERFORMANCE EVALUATIONS Mechanical Advantage To find the MA of a machine, you can divide the resistance force by the effort force. Most of the time the resistance force is the weight of the object in Newtons. Efficiency The resultant amount of work (output), divided by the amount of work put into the machine (input)

SCIENTIFIC CONCEPTS Force: a push or pull exerted by one object on another Motion: any physical movement or change in position or place Energy: the ability to do work. Work: the transfer of energy from one physical system to another, expressed as the product of a force and the distance through which it moves a body in the direction of the force Work (foot-pounds or Newton-meters) = Force (pounds or Newtons) x Distance (feet or meters)

SCIENTIFIC CONCEPTS (CONT) Power : Force divided by time. Measured in foot- pounds, newton-meters, or watts. Gravity : the natural tendency of objects with mass to attract each other. Friction : a force that opposes the motion or intended motion of a body in contact with another body.