Lesson 3 Reading Guide - Vocab

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Presentation transcript:

Lesson 3 Reading Guide - Vocab Simple Machines simple machine lever fulcrum wheel and axle inclined plane wedge screw pulley

Lesson 3-1 What is a simple machine? A. What is a simple machine? 1. A(n) simple machine is a machine that does work using only one movement. 2. These machines do work in a(n) single motion.

Lesson 3-2 Levers B. Levers 1. A(n) lever is a simple machine made of a bar that pivots or rotates about a fixed point. 2. The point that a lever pivots on is called a(n) fulcrum. Steve Gorton/Dorling Kindersley/Getty Images

Lesson 3-2 Levers (cont.) 3. The distance from the fulcrum to the input force is the input arm; the distance from the fulcrum to the output force is the output arm. 4. With a first-class lever, the fulcrum is between the input force and the output force. .

Lesson 3-2 Levers (cont.) A finger tab on a beverage can is a first-class lever. Jupiterimages

Lesson 3-2 Levers (cont.) 5. With a second-class lever, the output force is between the input force and the fulcrum.

Lesson 3-2 Levers (cont.) A wheel barrow is an example of a second-class lever. Digital Vision / Alamy

Lesson 3-2 Levers (cont.) 6. With a third-class lever, the input force is between the output force and the fulcrum.

Lesson 3-2 Levers (cont.) A rake is an example of a third-class lever. Doug Menuez/Getty Images

Lesson 3-2 Levers (cont.) 7. The ideal mechanical advantage of a lever equals the length of the input arm divided by the length of the output arm.

Lesson 3-2 Mechanical Advantage of Levers a. The mechanical advantage of a(n) first-class lever can vary, depending on the location of the fulcrum. a. The mechanical advantage of a(n) first-class lever can vary, depending on the location of the fulcrum. a. The mechanical advantage of a(n) first-class lever can vary, depending on the location of the fulcrum. a. The mechanical advantage of a(n) first-class lever can vary, depending on the location of the fulcrum. a. The mechanical advantage of a(n) first-class lever can vary, depending on the location of the fulcrum. Lesson 3-2 Mechanical Advantage of Levers

Lesson 3-2 Mechanical Advantage of Levers

Lesson 3-2 Mechanical Advantage of Levers

Lesson 3-2 8. In the human body, muscles provide force for the levers. a. The neck is a(n) first-class lever, with the neck muscles providing the input force. b. The foot is a(n) second-class lever, and the arm is a(n) third-class lever.

Lesson 3-3 Wheel and Axle C. Wheel and Axle 1. A(n) wheel and axle is an axle attached to the center of a wheel and both rotate together. 2. For a wheel and axle, the length of the input arm is the radius of the wheel; the length of the output arm is the radius of the axle. Don Tremain/Getty Images

Lesson 3-3 Wheel and Axle (cont.) A screwdriver is a wheel and axle. The handle is the wheel and the shaft is the axle.

Lesson 3-4 Inclined Planes D. Inclined Planes 1. A(n) inclined plane is a flat, sloped surface. 2. The ideal mechanical advantage of an inclined plane is the length of the inclined plane divided by its height.

Lesson 3-4 Moving a sofa is easier using a ramp. Using a ramp only requires a 100-N force to move the 500-N sofa. Because of friction, no ramp operates at its ideal mechanical advantage.

Lesson 3-4 Inclined Planes (cont.) 3. A sloped surface that moves is called a(n) wedge. 4. A(n) screw is an inclined plane wrapped around a cylinder.

Lesson 3-5 Pulleys 5. A(n) pulley is a simple machine that is a grooved wheel with a rope or cable wrapped around it.

Lesson 3-5 Pulleys (cont.) 6. A(n) fixed pulley only changes the direction of the force.

Lesson 3-5 Pulleys (cont.) 7. A(n) movable pulley decreases the force but increases the distance over which the force acts.

Lesson 3-5 Pulleys (cont.) 8. The ideal mechanical advantage of a pulley is equal to the number of sections of rope pulling up on the object.

Lesson 3-6 What is a compound machine? E. What is a compound machine? 1. Two or more simple machines that operate together form a(n) compound machine.

Lesson 3-6 What is a compound machine? (cont.) 2. A(n) gear is a wheel and axle that has teeth around the wheel. Brand X Pictures

Lesson 3-6 What is a compound machine? (cont.) 3. When the teeth of two or more gears interlock, the turning of one gear makes the other(s) turn. 4. The speed and force of gears is affected by the size of the gears. CORBIS

Lesson 3-6 What is a compound machine? (cont.) 5. The efficiency of a compound machine is determined by multiplying the efficiency of each component machine together.

Lesson 3 - VS Six simple machines are the lever, wheel and axle, inclined plane, wedge, screw, and pulley. All levers rotate, or pivot, about the fulcrum. The kind of wedge used to split logs is a simple machine.

Lesson 3 – LR1 What are levers, wheels and axles, inclined planes, wedges, screws, and pulleys examples of? A. complex machines B. compound machines C. idea machines D. simple machines