Time average of the kinetic energy of the planet


Question 1: If the coefficient of friction between a box and the bed of a truck is µ, Wfind out the maximum acceleration with which the truck can climb a hill, making an angle µ with the horizontal, without the box’s slipping on the truck bed?

Question 2: During the take-off of an airplane, a passenger removes his tie and lets it hang loosely from his fingers. He observes that during the take-off run, which last 30 seconds, the tie makes an angle of 150 with the vertical. Suppose that the runway is level. What is the speed of the plane at takeoff and how long the runway is needed?

Question 3: A particle of mass m moves in the field of a repulsive central force F(r) = Am/r3, where A is a constant. At a very large distance from the force center the particle has speed v0 and its impact parameter is b. Show that the closest m comes to the center of force is given by rmin = (b + A/vo).

Question 4:

a) Prove that the time average of the potential energy of a planet in an elliptical orbit having a semi-major axis a about the sun is –k/a, while the potential energy at a distance r is V(r)= –k/r.

b) Compute the time average of the kinetic energy of the planet

Question 5: Show that the period of a physical pendulum is equavalent to T = 2π√(d/g)

where d is the distance between the point of suspension O and the center of oscillation O’.

Question 6: A billiard ball of radius a is initially spinning about a horizontal axis with angular speed ω0 with zero forward speed. If the coefficient of sliding friction between the ball and the billiard table is before sliding ceases to occur.

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Physics: Time average of the kinetic energy of the planet
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