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Forces

Forces. What is a force?. Forces are described by their strength and direction . What is a force?. Forces are a push or a pull . One object can exert a force on another object. Units of Force. The SI unit of force is the newton (N), named for Issac newton. Measuring Forces. 5 N.

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Forces

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  1. Forces

  2. What is a force? • Forces are described by their strength and direction.

  3. What is a force? • Forces are a push or a pull. • One object can exert a force on another object.

  4. Units of Force • The SI unit of force is the newton (N), named for Issac newton.

  5. Measuring Forces 5 N 30 N • Arrows always point in the direction of the force. The longer the arrow…the greater the force.

  6. Measuring Forces 7 N 7 N 14 N 8 N 14 N 5 N • Forces are added when they go in the same direction. They are subtracted when they go in opposite directions. The result is a net force.

  7. Measuring Forces 7 N 7 N 0 N • In this case both forces cancel each other out because they are equal. There is NO net force.

  8. Unbalanced Forces • Unbalanced forces can cause an object to start moving, stop moving or change direction. • Unbalanced forces acting on an object result in a net force and cause a change in the objects motion.

  9. Unbalanced Forces • This net force causes the box to move to the right.

  10. Unbalanced Forces • Two equal forces result in no net change – the box does not move.

  11. Unbalanced Forces • Two equal forces result in no net change – the box does not move.

  12. Balanced Forces • Equal forces acting on one object in opposite directions. • They do not change the objects motion.

  13. Friction and Gravity

  14. Friction • The force that two surfaces exert on each other when they rub against each other is friction. • There are a few types of friction.

  15. Friction • The strength of the force of friction depends on two factors: • How hard the surfaces push together. • The type of surface involved.

  16. Friction and Surfaces • Some things have a low coefficient of friction, like ice. It is smoother the coefficient is low. • If it is bumpy or rough there is a high coefficient of friction.

  17. Types of Friction: Static Friction • Static friction is a type of friction that acts on objects that are NOT moving. • It takes extra force to move something that is not already moving. • Must exert a force GREATER than the static friction.

  18. Types of Friction: Static Friction It really takes a lot of force to get past the amount of static friction here!

  19. Types of Friction: Sliding Friction • Sliding friction occurs when two solid surfaces slide over each other. A ballet dancer will put powder on their slippers to prevent the sliding friction from occurring.

  20. Types of Friction: Rolling Friction • When an object rolls across a surface – rolling friction occurs. A skateboarder is demonstrating rolling friction…how?

  21. Types of Friction: Fluid Friction • Fluid friction occurs when an object pushes a fluid. A surfer’s board is helping them overcome the force of fluid friction.

  22. Gravity • Gravity is a force that pulls objects toward each other It is also a force that can be measured. On Earth Gravity is different than on the moon.

  23. Factors affecting gravity • Two factors that affect the gravitation attraction between objects are MASS and DISTANCE

  24. Gravity The force of gravity acts between all objects If mass increases, the force of gravity increases.

  25. Gravity If distance increases, the force of gravity decreases.

  26. Mass VS Weight • Mass is a measure of the amount of matter in an object. • Weight is a measure of the gravitational force exerted on an object. Weight = Mass X Gravity

  27. Free Fall • When the only force acting on an object is gravity, the object is said to be in free fall. • In free fall, the force of gravity is an unbalanced force. This causes an object to accelerate.

  28. Acceleration Due to Gravity • Near the surface of Earth – acceleration due to gravity is 9.8 m/s

  29. Acceleration Due to Gravity • All objects in free fall accelerate at the same rate regardless of their masses. • These rocks and this feather would fall at the same rate!

  30. Air Resistance • Air resistance creates a type of fluid friction

  31. Air Resistance • Air resistance increases with more surface area. • Air resistance increases with increasing velocity. • The greatest velocity a falling object reaches is called its terminal velocity. This is reached when the force of air resistance equals the weight of the object.

  32. Projectile Motion An object thrown is called a projectile. The force of gravity will act on the projectile. At first it goes upward, but eventually gravity pulls it back to the ground.

  33. Projectile Motion

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