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Motion

Motion. Newton’s Laws. A body in motion will remain in motion or a body at rest will remain at rest unless acted on by an external force. An external force on a body of mass m causes an acceleration of that body, i.e. F = m a For every action, there is an equal and opposite reaction.

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Motion

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  1. Motion

  2. Newton’s Laws • A body in motion will remain in motion or a body at rest will remain at rest unless acted on by an external force. • An external force on a body of mass m causes an acceleration of that body, i.e. F = ma • For every action, there is an equal and opposite reaction.

  3. Derivation of Laws of Motion F = ma a = F/m Where a is the acceleration. Acceleration is defined as the derivative with respect to time of the velocity a = dv/dt = Δv/Δt Where both a and v are vectors.

  4. dv = a dt ∫dv = ∫adt If a = constant v = vo+ at Wherevo is the velocity at t=0.

  5. v = vo+ at The definition of velocity is v = Δx/Δ t = dx/dt dx/dt = v dx = v dt ∫dx = ∫v dt x = xo + vot + (1/2)at2

  6. v =dx/dt v/a =(dx/dt) / (dv/dt) v/a = dx/dv vdv = adx ∫vdv = ∫adx v2 = (vo)2 + 2a(x – xo)

  7. One Dimensional Motion • Josh Avery climbs to the top of a 200 ft tall tree carrying two metal spheres – the first weighs 1 pound and the second weighs 10 pounds. He drops the lighter sphere and it falls to the ground. • What is the speed of the sphere when it impacts the ground? • How long did it take for the sphere to hit the ground?

  8. Josh now drops the second and heavier sphere. • How fast is it going when it impacts the ground? • Is this faster than the lighter sphere? • How long does it take to hit the ground? • Is this less time than the lighter sphere? • Explain your answers.

  9. A pitcher for the Boston Red Sox visits the campus at Dartmouth. He is asked to throw a baseball straight up as fast as he can. • The ball is clocked leaving the pitchers hand at 60 mph and at a height of 8 ft. • What is the force on the ball as it travels upwards? • What is the acceleration of the ball as it travels upwards?

  10. At what height will the ball stop going up and begin to fall downward? • How fast will the ball be traveling when it changes direction? • How long did it take for the ball to reverse direction? • How fast will the ball be going when it hits the ground?

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