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This lecture covers Newton's Laws, equilibrium, and various problems involving blocks, ramps, and pulleys in physics. Topics include forces, friction, tension, and acceleration. Solve problems related to equilibrium and calculate forces and accelerations in different scenarios.

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  1. Clicker Registration • Remember to register your clicker at: www.iclicker.com/registration Physics 1D03 - Lecture 8

  2. Newton’s Laws (III) • Blocks, ramps, pulleys and other problems Physics 1D03 - Lecture 8

  3. Equilibrium • A special case : (object doesn’t move, or moves at constant velocity) • Newton’s second law gives • This is equivalent to three independent component equations: • We can solve for 3 unknowns (or 2, in 2-D problems) The vector sum of forces acting on a body in equilibrium is zero Physics 1D03 - Lecture 8

  4. m θ Block on a ramp Determine all the forces acting on this block. Given m, θ and μk, what would the acceleration be • without friction • with friction Physics 1D03 - Lecture 8

  5. Example A block is in equilibrium on a frictionless ramp. What is the tension in the rope? T m f Physics 1D03 - Lecture 8

  6. m 37o Quiz The block has weight mg and is in equilibrium on the ramp. If ms = 0.9, what is the frictional force? • 0.90 mg • 0.72 mg • 0.60 mg • 0.54 mg Physics 1D03 - Lecture 8

  7. Remember, when doing problems with “F=ma” • Draw the free-body diagram carefully. • You may need to know the direction of a from kinematics, before considering forces (for friction). • Any axes will do, but some choices make the algebra simpler – set up equations for each direction. • You need one (scalar) equation for each (scalar) unknown, in general (the mass will often cancel out). Physics 1D03 - Lecture 8

  8. d θ ExampleObtain an expression for the stopping distance for a skier moving down a slope with friction with an initial speed of v1. Find the distance given that μk=0.18, v=20m/s and θ=5.0º. Physics 1D03 - Lecture 8

  9. θ m Accelerated motion Example: A block is pushed with a force FAat an angle to the horizontal, find the acceleration. Friction is given by μk. FA Physics 1D03 - Lecture 8

  10. mg f n This is an easy method of measuring Question : Can we calculate μs ? Increasing  so that , the block slips, from which we get: Physics 1D03 - Lecture 8

  11. Pulleys • To solve pulley problems, we assume that: 1) the pulley is frictionless 2) the pulley is massless • Hence, the force of tension on both sides of the pulley is the same Physics 1D03 - Lecture 8

  12. m M q Example • Find the acceleration of a system of two masses m and M, where M is the greater mass. Also, find the tension, T, in the string. There are two ways of solving the problem ! Physics 1D03 - Lecture 8

  13. m M q Example: Frictionless surfaces, ideal pulleys, etc. For what angle q is the system in equilibrium? Physics 1D03 - Lecture 8

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