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Newton’s Laws

Newton’s Laws. Chapter 4. Newton’s Laws. Dynamics – causes of motion Fundamental – from data, not other principles Newtonian or classical mechanics Valid for most familiar kinds of motion Not at very high speeds or very small sizes. Force. A push or a pull

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Newton’s Laws

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  1. Newton’s Laws Chapter 4 Physics chapter 4

  2. Newton’s Laws • Dynamics – causes of motion • Fundamental – from data, not other principles • Newtonian or classical mechanics • Valid for most familiar kinds of motion • Not at very high speeds or very small sizes Physics chapter 4

  3. Force • A push or a pull • Contact force – involves direct contact between the two bodies • Done by your hand, a rope, friction, etc. • Long-range force – acts even when the bodies are separated by empty space • Done by gravity, magnets, etc. Physics chapter 4

  4. Force • A vector – has direction and magnitude – how much or how hard the force pushes or pulls • The SI unit of force is the newton, abbreviated N Physics chapter 4

  5. Newton’s 1st Law • A body acted on by no net force moves with constant velocity (which may be zero) and zero acceleration. • Every body continues in its state of rest, or of uniform motion in a straight line, unless acted upon by an outside force. • Inertia – property that causes this tendency Physics chapter 4

  6. Newton’s 1st law • Note that it is the net force that is important. Something with no net force acting on it can still have forces acting on it. • If these forces cancel each other out, there is no net force. • Example – book sitting on table • Weight and normal force Physics chapter 4

  7. Adding Forces • We use vector addition to add forces. • We can also split forces into their x and y components to make them easier to add. Physics chapter 4

  8. Example • Three boys are fighting over a ball at recess. They apply the following forces, as seen from above. Find the net force on the ball. Physics chapter 4

  9. On your own • If a fourth boy were to join in the fight, how hard and in what direction would he have to pull in order for the net force on the ball to be zero? Physics chapter 4

  10. Coordinate plane • You can set it wherever you want. • Often, when doing problems with ramps or inclines, you want to tilt the coordinate plane. Physics chapter 4

  11. Newton’s 2nd Law • What happens when the net force is not zero? • Acceleration • For a given body, the ratio of the magnitude of the net force to the magnitude of the acceleration is constant. Physics chapter 4

  12. Newton’s 2nd law Physics chapter 4

  13. Mass and force • Greater mass has greater inertia – it resists being accelerated more. • One N is the amount of force required to accelerate one kg of mass at 1 m/s2. Physics chapter 4

  14. Mass and weight • Weight is the force of the earth’s gravitational attraction for a body. • Mass is a measure of inertia, weight is a measure of the force of gravity. • Objects with large mass also have large weight. Physics chapter 4

  15. Mass and weight • Weight acts on a body all the time, whether it is in free fall or not. • Example – book on table Physics chapter 4

  16. Weight variation by location • Your weight can vary by location, but your mass does not. • On the moon, g = 1.6 m/s2. • On the moon, astronauts weigh less, but have the same mass. Physics chapter 4

  17. Example • A given force produces an acceleration of 5 m/s2 on an object with mass of 1 kg. • When an equal force is applied to a carton of ice cream, it produces an acceleration of 11 m/s2. What is the mass of the carton of ice cream? Physics chapter 4

  18. On your own • You’re stranded in space away from your spaceship. Fortunately, you have a propulsion unit that provides a constant force F for 3 s. After 3 s you have moved 2.25 m. If your mass is 68 kg, find F. • Hint: you need to use a kinematics equation to find acceleration Physics chapter 4

  19. Example • A person in an elevator is holding a 10-kg block by a cord rated to withstand a tension of 150 N. When the elevator starts up, the cord breaks. What was the minimum acceleration in of the elevator? Physics chapter 4

  20. On your own • An object of mass m is suspended from the ceiling of an elevator that is descending with an acceleration of a. What is the tension in the string? Physics chapter 4

  21. Newton’s 3rd law • When two objects interact, the two forces they exert on each other are always equal in magnitude and opposite in direction. • Note – the two forces act on different objects Physics chapter 4

  22. Example • A horse refuses to pull a cart. The horse reasons, “according to Newton’s 3rd law, whatever force I exert on the cart, the cart will exert an equal and opposite force on me, so the net force will be zero and I will have no chance of accelerating the cart.” What is wrong with this reasoning? Physics chapter 4

  23. On your own • An advertisement claims that a particular automobile can “stop on a dime”. What net force would actually be necessary to stop a 850-kg automobile traveling initially at 45.0 km/h in a distance equal to the diameter of a dime, which is 1.8 cm? Physics chapter 4

  24. Normal force • Exerted by a surface • Perpendicular to the surface • Reaction force • For objects resting on horizontal surfaces, it is equal in magnitude to gravitational force. Physics chapter 4

  25. Gravity • The Earth exerts a gravitational force on you. • This makes you move towards the Earth • You exert an equal and opposite gravitational force on the Earth. • The Earth doesn’t move towards you because it is so big. Physics chapter 4

  26. Frame of reference • An observer with coordinate axes and instruments to measure distance and time • On a plane vs. on the ground Physics chapter 4

  27. Inertial frames of reference • Ones where Newton’s laws work • Ones that are not accelerating • Nonexample - Force felt on a plane • Attached to the Earth (for simplicity) Physics chapter 4

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