As shown in the figure below, a small box is released from rest at point A along the horizontal diameter on the inside of a frictionless, hemispherical bowl. The box has a mass m = 275 g and the bowl has a radius R = 29.0 cm. 2R/3 (a) Calculate the gravitational potential energy of the box-Earth system (in J) when the box is at point A relative to point B. (b) Calculate the kinetic energy of the box (in J) at point B. (c) Calculate its speed (in m/s) at point B. m/s (d) Calculate its kinetic energy (in J) when the box is at point C. (e) Calculate the potential energy (in J) when the box is at point C.

As shown in the figure below, a small box is released from rest at point A along the horizontal diameter on the inside of a frictionless, hemispherical bowl. The box has a mass m = 275 g and the bowl has a radius R = 29.0 cm. 2R/3 (a) Calculate the gravitational potential energy of the box-Earth system (in J) when the box is at point A relative to point B. (b) Calculate the kinetic energy of the box (in J) at point B. (c) Calculate its speed (in m/s) at point B. m/s (d) Calculate its kinetic energy (in J) when the box is at point C. (e) Calculate the potential energy (in J) when the box is at point C.

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Question

As shown in the figure below, a small box is released from rest at point A along the horizontal diameter on the inside of a frictionless, hemispherical bowl. The box has a mass m = 275 g and the bowl
has a radius R = 29.0 cm.
A.
2R/3
(a) Calculate the gravitational potential energy of the box-Earth system (in J) when the box is at point A relative to point B.
(b) Calculate the kinetic energy of the box (in J) at point B.
(c) Calculate its speed (in m/s) at point B.
m/s
(d) Calculate its kinetic energy (in J) when the box is at point C.
(e) Calculate the potential energy (in J) when the box is at point

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