A 6.20cm diameter, 468.0g solid uniform sphere is released from rest at the top of a...
A 6.20cm diameter, 468.0g solid uniform sphere is released from rest at the top of a 4.38m long, 40.6° incline. It rolls, without slipping, to the bottom. What is the sphere's angular velocity at the bottom of the incline?
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A 6.20cm diameter, 468.0g solid uniform sphere is released from
rest at the top of a...
An 8.10-cm-diameter, 300 g solid sphere is released from rest at the top of a 1.60-m-long,...
An 8.10-cm-diameter, 300 g solid sphere is released from rest at the top of a 1.60-m-long, 16.0 ? incline. It rolls, without slipping, to the bottom. a)What is the sphere's angular velocity at the bottom of the incline? b)What fraction of its kinetic energy is rotational?
An 8.80-cm-diameter, 340 g solid sphere is released from rest at the top of a 1.60-m-long,...
An 8.80-cm-diameter, 340 g solid sphere is released from rest at the top of a 1.60-m-long, 20.0 ∘ incline. It rolls, without slipping, to the bottom. Part A What is the sphere's angular velocity at the bottom of the incline? Part B What fraction of its kinetic energy is rotational?
A 8.6-cm-diameter, 389 g sphere is released from rest at the top of a 3.2-m-long, 25°...
A 8.6-cm-diameter, 389 g sphere is released from rest at the top of a 3.2-m-long, 25° incline. It rolls, without slipping, to the bottom. (a) What is the sphere's angular velocity at the bottom of the incline?
An 8.20-cm-diameter, 380 g sphere is released from rest at the top of a 1.90-m-long, 15.0...
An 8.20-cm-diameter, 380 g sphere is released from rest at the top of a 1.90-m-long, 15.0 ∘ incline. It rolls, without slipping, to the bottom. A) What is the sphere's angular velocity at the bottom of the incline? B) What fraction of its kinetic energy is rotational?
An 8.80-cm-diameter, 300 g solid sphere is released from rest at the top of a 1.60-m-long,...
An 8.80-cm-diameter, 300 g solid sphere is released from rest at the top of a 1.60-m-long, 18.0° incline. It rolls, without slipping, to the bottom. Part A You may want to review (Pages 315-317). What is the sphere's angular velocity at the bottom of the incline? Express your answer with the appropriate units. THÅR 3 ? | Value Units Submit Request Answer Part B What fraction of its kinetic energy is rotational? VALOR ?
Problem 12.34 An 7.50-cm-diameter, 350 g sphere is released from rest at the top of a...
Problem 12.34 An 7.50-cm-diameter, 350 g sphere is released from rest at the top of a 1.70-m-long, 19.0 ∘incline. It rolls, without slipping, to the bottom. Part A What is the sphere's angular velocity at the bottom of the incline? Express your answer with the appropriate units. Part B What fraction of its kinetic energy is rotational?
Problem 12.35 - Enhanced - with Feedback An 7.20-cm-diameter, 350 g solid sphere is released from...
Problem 12.35 - Enhanced - with Feedback An 7.20-cm-diameter, 350 g solid sphere is released from rest at the top of a 2.00-m-long, 20.0 incline. It rolls, without slipping, to the bottom. Part A You may want to review (Pages 315 - 317). What is the sphere's angular velocity at the bottom of the incline? Express your answer with the appropriate units. Value Units Submit Request Answer Part B What fraction of its kinetic energy is rotational? V AEP O...
A solid homogeneous sphere of mass M = 4.70 kg is released from rest at the...
A solid homogeneous sphere of mass M = 4.70 kg is released from
rest at the top of an incline of height H=1.21 m and rolls without
slipping to the bottom. The ramp is at an angle of θ = 27.7o to the
horizontal.
a) Calculate the speed of the sphere's CM at the bottom of the
incline.
b) Determine the rotational kinetic energy of the sphere at the
bottom of the incline.
A uniform, solid sphere of radius 5.00 cm and mass 1.75 kgstarts with a purely translational...
A uniform, solid sphere of radius 5.00 cm and mass 1.75 kgstarts with a purely translational speed of 3.25 m/s at the top of an inclined plane. The surface of the incline is 1.75 m long, and is tilted at an angle of 24.0∘with respect to the horizontal. Assuming the sphere rolls without slipping down the incline, calculate the sphere's final translational speed ?2at the bottom of the ramp.
A uniform, solid sphere of radius 5.00 cm and mass 4.75 kg starts with a purely...
A uniform, solid sphere of radius 5.00 cm and mass 4.75 kg starts with a purely translational speed of 1.75 m/s at the top of an inclined plane. The surface of the incline is 1.50 m long, and is tilted at an angle of 26.0∘ with respect to the horizontal. Assuming the sphere rolls without slipping down the incline, calculate the sphere's final translational speed ?2 at the bottom of the ramp. ?2=
An 8.80-cm-diameter, 300 g solid sphere is released from rest at the top of a 1.60-m-long, 18.0° incline. It rolls, without slipping, to the bottom. Part A You may want to review (Pages 315-317). What is the sphere's angular velocity at the bottom of the incline? Express your answer with the appropriate units. THÅR 3 ? | Value Units Submit Request Answer Part B What fraction of its kinetic energy is rotational? VALOR ?
Problem 12.35 - Enhanced - with Feedback An 7.20-cm-diameter, 350 g solid sphere is released from rest at the top of a 2.00-m-long, 20.0 incline. It rolls, without slipping, to the bottom. Part A You may want to review (Pages 315 - 317). What is the sphere's angular velocity at the bottom of the incline? Express your answer with the appropriate units. Value Units Submit Request Answer Part B What fraction of its kinetic energy is rotational? V AEP O...
A solid homogeneous sphere of mass M = 4.70 kg is released from
rest at the top of an incline of height H=1.21 m and rolls without
slipping to the bottom. The ramp is at an angle of θ = 27.7o to the
horizontal.
a) Calculate the speed of the sphere's CM at the bottom of the
incline.
b) Determine the rotational kinetic energy of the sphere at the
bottom of the incline.
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