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Question2 Answer the followings, carry 25 points L. State whether following properties are a vector or...
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...
Part 2-Real Question-> Answer the followings,.carry 25 points. I. State whether following properties are a vector...
Part 2-Real Question-> Answer the followings,.carry 25 points. I. State whether following properties are a vector or a scalar? 5 points Kinetic energy: Potential energy: Work done: Torque: Pressure: Displacement: Velocity: Momentum: Impulse: Force: Distance: Speed: Angular momentum Angular acceleration:
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 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...
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...
Two spheres of equal mass M and equal radius R roll down an inclined plane as...
Two spheres of equal mass M and equal radius R roll down an
inclined plane as shown in the figure. One sphere is solid and the
other is a hollow spherical shell. The plane makes an angle ? with
respect to the horizontal. The spheres are released simultaneously
from rest at the top of the inclined plane and they each roll down
the incline without slipping.
The total distance each sphere rolls down the ramp (the
hypotenuse) is d. There...
Problem 2 (10 pt.) A homogeneous sphere of mass m and radius b is rolling on...
Problem 2 (10 pt.) A homogeneous sphere of mass m and radius b is rolling on an inclined plane with inclination angle ? in the gravitational field g. Follow the steps below to find the velocity V of the center of mass of the sphere as a function of time if the sphere is initially at rest. Bold font represents vectors. There exists a reaction force R at the point of contact between the sphere and the plane. The equations...
Figure 6 solution see book, solved problem 12.3, also HW problem, also solved during lecture and...
Figure 6 solution see book, solved problem 12.3, also HW problem, also solved during lecture and recitation, also see attachement 14. A thin hollow spherical shell of mass M, and radius R , rolls down without slipping (condition for rolling without slipping :v, = WR) from the top of the incline of length L The incline makes an angle with horizontal ground. What will be the velocity of the centre of mass (C.M) of the sphere when it reaches at...
Question 7 (10 points) A spring with a spring constant 4.7 N/cm is compressed 45 cm...
Question 7 (10 points) A spring with a spring constant 4.7 N/cm is compressed 45 cm and released. The 15 kg mass skids down the frictional incline of height 45 cm and inclined at 25° angle. The acceleration is 9.8 m/s2. The path is frictionless except for a distance of 1.0 m along the incline which has a coefficient of kinetic friction Hk = 0.35. What is the final velocity Vf of the mass? 45 cm Too0000 15 kg u...
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...
Part 2-Real Question-> Answer the followings,.carry 25 points. I. State whether following properties are a vector or a scalar? 5 points Kinetic energy: Potential energy: Work done: Torque: Pressure: Displacement: Velocity: Momentum: Impulse: Force: Distance: Speed: Angular momentum Angular acceleration:
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 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...
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...
Two spheres of equal mass M and equal radius R roll down an
inclined plane as shown in the figure. One sphere is solid and the
other is a hollow spherical shell. The plane makes an angle ? with
respect to the horizontal. The spheres are released simultaneously
from rest at the top of the inclined plane and they each roll down
the incline without slipping.
The total distance each sphere rolls down the ramp (the
hypotenuse) is d. There...
Problem 2 (10 pt.) A homogeneous sphere of mass m and radius b is rolling on an inclined plane with inclination angle ? in the gravitational field g. Follow the steps below to find the velocity V of the center of mass of the sphere as a function of time if the sphere is initially at rest. Bold font represents vectors. There exists a reaction force R at the point of contact between the sphere and the plane. The equations...
Figure 6 solution see book, solved problem 12.3, also HW problem, also solved during lecture and recitation, also see attachement 14. A thin hollow spherical shell of mass M, and radius R , rolls down without slipping (condition for rolling without slipping :v, = WR) from the top of the incline of length L The incline makes an angle with horizontal ground. What will be the velocity of the centre of mass (C.M) of the sphere when it reaches at...
Question 7 (10 points) A spring with a spring constant 4.7 N/cm is compressed 45 cm and released. The 15 kg mass skids down the frictional incline of height 45 cm and inclined at 25° angle. The acceleration is 9.8 m/s2. The path is frictionless except for a distance of 1.0 m along the incline which has a coefficient of kinetic friction Hk = 0.35. What is the final velocity Vf of the mass? 45 cm Too0000 15 kg u...
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