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Using energy conservation for the ball rolling down the ramp we have mgyinitial +1mVinitial +11°initial mgyunal...
Group Activity: Ball rolling down ramp and off cliff As shown in the figure below, a hollow ball ...
Group Activity: Ball rolling down ramp and off cliff As shown in the figure below, a hollow ball with a mass m 5.00 kg and radius r -30.0cm starts from rest and rolls a distance of 1.2 m down a 30° ramp, before reaching a flat section at the bottom of the ramp. The ball then rolls along the flat section for 1.0 m before rolling off a 2.5 m-high cliff. The ball lands a distance d from the bottom...
A 2.7kg ball starts rolling up a 38 degrees incline at speed of 17m/s. Using conservation...
A 2.7kg ball starts rolling up a 38 degrees incline at speed of 17m/s. Using conservation of energy, find out how much work gravity does on the ball when it travels from the bottom to the maximum height
3. A ball, a solid sphere of radius r and mass m, is positioned at the top of a ramp that makes an angle of 0 with the horizontal. The initial position of the sphere is at a distance of d from its fi...
3. A ball, a solid sphere of radius r and mass m, is positioned at the top of a ramp that makes an angle of 0 with the horizontal. The initial position of the sphere is at a distance of d from its final position at the bottom of the incline. a) Find the velocity of the ball at the bottom of the ramp in terms of m, r, d, 8, and g. The moment of inertia of a sphere...
help on this question The marble is initially at rest at the top of the ramp...
help on this question
The marble is initially at rest at the top of the ramp (point A), a height h above the end of the ramp. When it reaches the bottom of the ramp, it has some speed v (which we need to know to predict the landing point on the floor). So, the initial potential energy of the marble at point A has been transformed into kinetic energy. Its important to recognize that its kinetic energy is in...
2. Given the situation as shown in the figure. The hollow sphere is rolling down an...
2. Given the situation as shown in the figure. The hollow sphere is rolling down an inclined plane! Mass of the sphere is M, radius is R and vertical height is H. V is the linear velocity of the center of mass, ICM is the moment of inertia and ω is the angular velocity. Write the conservation of energy for above system; make sure you use the symbols given (use initial as the top and final as before it hits...
2. Given the situation as shown in the figure. The hollow sphere is rolling down an...
2. Given the situation as shown in the figure. The hollow sphere is rolling down an inclined plane! Mass of the sphere is M, radius is R and vertical height is H. V is the linear velocity of the center of mass, ICM is the moment of inertia and ω is the angular velocity. Write the conservation of energy for above system; make sure you use the symbols given (use initial as the top and final as before it hits...
2. Given the situation as shown in the figure. The hollow sphere is rolling down an...
2. Given the situation as shown in the figure. The hollow sphere is rolling down an inclined plane! Mass of the sphere is M, radius is R and vertical height is H. V is the linear velocity of the center of mass, IcM is the moment of inertia and w is the angular velocity. Write the conservation of energy for above system; make sure you use the symbols given (use initial as the top and final as before it hits...
2. Given the situation as shown in the figure. The hollow sphere is rolling down an...
2. Given the situation as shown in the figure. The hollow sphere is rolling down an inclined plane! Mass of the sphere is M, radius is R and vertical height is H. V is the linear velocity of mass, IcM is the moment of inertia and w is the angular velocity. the center of Write the conservation of energy for above system; make sure you use the symbols given (use initial as the top and final as before it hits...
Please help me with these physics practice questions thanks and God bless :( Q16. Consider the...
Please help me with these physics practice questions thanks
and God bless :(
Q16. Consider the box in the drawing. We can slide the box up the frictionless incline from point A and to point Cor we can slide it along the frictionless horizontal surface from point to point Band then lift it to point How does the work done on the box along path A-c to the work done on the box along the two step path A greater...
Group Activity: Ball rolling down ramp and off cliff As shown in the figure below, a hollow ball with a mass m 5.00 kg and radius r -30.0cm starts from rest and rolls a distance of 1.2 m down a 30° ramp, before reaching a flat section at the bottom of the ramp. The ball then rolls along the flat section for 1.0 m before rolling off a 2.5 m-high cliff. The ball lands a distance d from the bottom...
3. A ball, a solid sphere of radius r and mass m, is positioned at the top of a ramp that makes an angle of 0 with the horizontal. The initial position of the sphere is at a distance of d from its final position at the bottom of the incline. a) Find the velocity of the ball at the bottom of the ramp in terms of m, r, d, 8, and g. The moment of inertia of a sphere...
help on this question
The marble is initially at rest at the top of the ramp (point A), a height h above the end of the ramp. When it reaches the bottom of the ramp, it has some speed v (which we need to know to predict the landing point on the floor). So, the initial potential energy of the marble at point A has been transformed into kinetic energy. Its important to recognize that its kinetic energy is in...
2. Given the situation as shown in the figure. The hollow sphere is rolling down an inclined plane! Mass of the sphere is M, radius is R and vertical height is H. V is the linear velocity of the center of mass, ICM is the moment of inertia and ω is the angular velocity. Write the conservation of energy for above system; make sure you use the symbols given (use initial as the top and final as before it hits...
2. Given the situation as shown in the figure. The hollow sphere is rolling down an inclined plane! Mass of the sphere is M, radius is R and vertical height is H. V is the linear velocity of the center of mass, ICM is the moment of inertia and ω is the angular velocity. Write the conservation of energy for above system; make sure you use the symbols given (use initial as the top and final as before it hits...
2. Given the situation as shown in the figure. The hollow sphere is rolling down an inclined plane! Mass of the sphere is M, radius is R and vertical height is H. V is the linear velocity of the center of mass, IcM is the moment of inertia and w is the angular velocity. Write the conservation of energy for above system; make sure you use the symbols given (use initial as the top and final as before it hits...
2. Given the situation as shown in the figure. The hollow sphere is rolling down an inclined plane! Mass of the sphere is M, radius is R and vertical height is H. V is the linear velocity of mass, IcM is the moment of inertia and w is the angular velocity. the center of Write the conservation of energy for above system; make sure you use the symbols given (use initial as the top and final as before it hits...
Please help me with these physics practice questions thanks
and God bless :(
Q16. Consider the box in the drawing. We can slide the box up the frictionless incline from point A and to point Cor we can slide it along the frictionless horizontal surface from point to point Band then lift it to point How does the work done on the box along path A-c to the work done on the box along the two step path A greater...
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