Homework Answers
Centripetal force acting on a mass M moving with velocity v around a radius r is
2nd option is correct.
A 1000-kg car moves as speed from 10 m/s to 30 m/s in 20 seconds. What...
A 1000-kg car moves as speed from 10 m/s to 30 m/s in 20 seconds. What is the average speed? What is the acceleration? What is the average force acting upon it? If the car turns along a circle at 5 m/s around a curve 30 meters in radius, how big the centripetal force is needed?
A child sitting 2.0 m from the center of a merry-go-round moves with a speed of...
A child sitting 2.0 m from the center of a merry-go-round moves with a speed of 1.10 m/s Calculate: the centripetal acceleration of die child and the net horizontal force exerted on the child (mass = 22.5 kg) Calculate the centripetal acceleration of the Earth in its orbit around the sun and the net force on the Earth Whit exerts this force on the Earth? Assume that the Earth orbit is a circle of radius 1.50 times 10^11 m What...
1.) A 1000-kg car moves as speed from 10 m/s to 30 m/s in 20 seconds....
1.) A 1000-kg car moves as speed from 10 m/s to 30 m/s in 20 seconds. What is the average speed? What is the acceleration? What is the average force acting upon it? If the car turns along a circle speed at 5 m/s around a curve 30 meters in radius, how big the centripetal is needed? 2.) For two objects with masses 100 kg and 500 kg to be 20 meters apart, find the gravity between them
1.) A 1000-kg car moves as speed from 10 m/s to 30 m/s in 20 seconds....
1.) A 1000-kg car moves as speed from 10 m/s to 30 m/s in 20 seconds. What is the average speed? What is the acceleration? What is the average force acting upon it? If the car turns along a circle speed at 5 m/s around a curve 30 meters in radius, how big the centripetal is needed? 2.) For two objects with masses 100 kg and 500 kg to be 20 meters apart, find the gravity between them.
A small remote-controlled car with mass 1.60 kg moves at a constant speed of v= 12.0...
A small remote-controlled car with mass 1.60 kg moves at a constant speed of v= 12.0 m/s in a track formed by a vertical circle inside a hollow metal cylinder that has a radius of 5.00 m, see Fig below. What is the magnitude of the normal force exerted on the car by the walls of the cylinder at 5.00 m 3. point A (bottom of the track)? (20 points) 4. point B (top of the track)? (20 points)
A small remote-controlled car with mass 1.5 kg moves at a constant speed of 12 m.s...
A small remote-controlled car with mass 1.5 kg moves at a constant speed of 12 m.s in a vertical circle inside a metal track (see figure). B V = 12.0 m/s 5.00 m A. What is its centripetal acceleration? m.s B. What is the magnitude of the centripetal force acting on the car? N C. What is the magnitude of the force exerted by the track on the car at point B? N
4. A 76-kg car driver reaches the bottom of a hill moving at a speed of...
4. A 76-kg car driver reaches the bottom of a hill moving at a speed of v= 20 m/s. This bottom of the hill forms the arc of a circle whose radius is 200 m, as shown. (a) At this bottom of the hill, what is the magnitude /r = 200 m of the centripetal acceleration of the driver? (b) Find the force exerted on the driver by the car seat at this bottom of the hill. [(a) 2 m/s;...
A small remote-controlled car with mass 1.60 kg moves at a constant speed of v =...
A small remote-controlled car with mass 1.60 kg moves at a constant speed of v = 12.0 m/s in a track formed by a vertical circle inside a hollow metal cylinder that has a radius of 5.00 m, see Fig below. What is the magnitude of the normal force exerted on the car by the walls of the cylinder at a) point A (bottom of the track)? b) point B (top of the track)?
A particle with a mass of 9 kg moves in a circle with a radius of...
A particle with a mass of 9 kg moves in a circle with a radius of 0.18 m and a tangential speed of 13 m/s. What is the angular momentum of the particle in kg-m2/s?
A charged particle (Q = 4 C, m = 0.04 kg) moves at a speed of...
A charged particle (Q = 4 C, m = 0.04 kg) moves at a speed of 100 m/s perpendicular to the direction of a uniform magnetic field of 0.1 T. What is the magnitude of the force exerted by the magnetic field on the charge?
A child sitting 2.0 m from the center of a merry-go-round moves with a speed of 1.10 m/s Calculate: the centripetal acceleration of die child and the net horizontal force exerted on the child (mass = 22.5 kg) Calculate the centripetal acceleration of the Earth in its orbit around the sun and the net force on the Earth Whit exerts this force on the Earth? Assume that the Earth orbit is a circle of radius 1.50 times 10^11 m What...
1.) A 1000-kg car moves as speed from 10 m/s to 30 m/s in 20 seconds. What is the average speed? What is the acceleration? What is the average force acting upon it? If the car turns along a circle speed at 5 m/s around a curve 30 meters in radius, how big the centripetal is needed? 2.) For two objects with masses 100 kg and 500 kg to be 20 meters apart, find the gravity between them
A small remote-controlled car with mass 1.60 kg moves at a constant speed of v= 12.0 m/s in a track formed by a vertical circle inside a hollow metal cylinder that has a radius of 5.00 m, see Fig below. What is the magnitude of the normal force exerted on the car by the walls of the cylinder at 5.00 m 3. point A (bottom of the track)? (20 points) 4. point B (top of the track)? (20 points)
A small remote-controlled car with mass 1.5 kg moves at a constant speed of 12 m.s in a vertical circle inside a metal track (see figure). B V = 12.0 m/s 5.00 m A. What is its centripetal acceleration? m.s B. What is the magnitude of the centripetal force acting on the car? N C. What is the magnitude of the force exerted by the track on the car at point B? N
4. A 76-kg car driver reaches the bottom of a hill moving at a speed of v= 20 m/s. This bottom of the hill forms the arc of a circle whose radius is 200 m, as shown. (a) At this bottom of the hill, what is the magnitude /r = 200 m of the centripetal acceleration of the driver? (b) Find the force exerted on the driver by the car seat at this bottom of the hill. [(a) 2 m/s;...
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