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Balanced and Unbalanced Forces Review

Balanced and Unbalanced Forces Review. What happens to the motion of an object when the forces are balanced? The motion changes. The motion does not change. The motion speeds up. The motion slows down. What happens to an object if the forces acting upon it are unbalanced?

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Balanced and Unbalanced Forces Review

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  1. Balanced and Unbalanced Forces Review What happens to the motion of an object when the forces are balanced? The motion changes. The motion does not change. The motion speeds up. The motion slows down. What happens to an object if the forces acting upon it are unbalanced? Its motion will not change. The object will come to a stop. The net force will be zero. Its motion will change.

  2. What happens to an object moving in the same direction as the net force? • It will speed up. • Its motion does not change. • It will stop moving. • It will slow down. • Which pair of objects will have the least gravitational attraction to each other? • Two cinder blocks 6 centimeters apart. • Two marbles 12 centimeters apart. • A cinderblock and marble 6 centimeters apart. • A cinderblock and marble 6 centimeters apart.

  3. Which walking surface has the least friction? • Sand. • Ice. • Wood floor. • Carpet. • Which object has the greatest inertia? • A 3-gram ping-pong ball. • A 5-gram marble. • A 1-kg rubber ball. • A 10-kg bowling ball.

  4. Velocity and Acceleration

  5. Speed • What is speed? • How fast an object moves. • How can you tell how fast your car is going? • Look at the speedometer (miles per hour) • This tells us exactly what we need to know to find the speed of an object!

  6. Determining Speed • Need to know • The distance the object moves (miles, kilometers, etc.) • The amount of time needed to travel that distance (hours, seconds, etc.)

  7. Example of different speeds over time.

  8. Formula for Speed • Speed = distance time • S = d t

  9. Road Trip! • When you’re driving, are you going the same speed at all times? • No! – Traffic lights, construction, etc. • So we’re actually finding the object’s AVERAGE speed.

  10. Example: • It takes 2 hours for a car to travel 100 kilometers. • What’s the car’s speed? • 50 kilometers per hour (100 km / 2hours) • However, it’s very unlikely that the car traveled 50 km/h for the entire trip. • Sometimes the car moved slower, sometimes faster. • So we’ve found the car’s average speed.

  11. Graphing Speed • Speed can be shown on a graph of distance versus time. • Remember: these are the two thing you need to know to find speed. • Why isn’t the line straight?

  12. Velocity • Velocity is the speed of an object in a particular direction.

  13. Brain Teaser: • Two cars are traveling at 50 km/h on the same highway for 2 hours. • After two hours, the cars are 200 km away from each other. • How is this possible? • The cars were traveling in opposite directions!

  14. Speed tells us the distance and time, but not the direction of the object. • When you include the object’s direction, you’re describing the velocity, not speed.

  15. Brain Teaser Again: • Two cars are traveling at 50 km/h on the same highway for 2 hours. • The velocity of one car is 50 km/h east, and the velocity of the other car is 50 km/h west. • Now it’s easy to see how the cars ended up 200 km away from each other!

  16. Changes in Velocity • How can you change an object’s velocity? • Change its speed or direction. • Example: • If a sailboat’s speed goes from 4 knots to 7 knots, its velocity has changed! • If the sailboat continues moving at 7 knots but changes direction, its velocity has changed again!

  17. Acceleration • Acceleration is the rate at which an object’s velocity changes. • What’s an example of an object accelerating? • A car speeding up after stopping at a stop sign. • But acceleration is the rate of change in VELOCITY…

  18. What else can cause an object to accelerate? • A change in direction • Every time you turn a corner, or change direction, you are accelerating ! • What if you slow down? • It’s still changing your speed, so YES, you are accelerating (negatively).

  19. Formula for Acceleration • Average Acceleration = final velocity – starting velocity time • A = v2 – v1 t • Acceleration recorded in units such as meters per second squared (m/s2)

  20. Example • How much does the car accelerate in the first second? • The second? • Third? • So every second, the car’s velocity increases by 5 m/s.

  21. Another Example: • What was the car’s velocity at 10 seconds? • Find the car’s average acceleration (in 10 seconds) using the formula.

  22. Velocity and Acceleration Review • Which of the following is an example of changing acceleration? • A train traveling 65 miles per hour south • A boat sailing west at 5 knots • A person jogging at 3 meters/second along a winding path • A car stopped at a red light • Which of the following is NOT needed to determine the velocity of a moving truck? • The mass of the truck • The distance it travels • The time it takes to travel that distance • The direction in which it travels

  23. An object accelerates if its • Speed remains constant • Direction changes • Mass remains constant • Motion can be plotted on a graph • What is the average speed of an object that travels 100 meters in 20 seconds? • 4 m/s • 8 m/s • 5 m/s • 10 m/s

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