Spring 2025 Challenge

Submission deadline is April 15^th.

Classical Mechanics	Hall of Fame
A tiny pebble of mass 2M is placed on top of a frictionless hemisphere of mass M, which rests on a table (see Figure). The pebble is given a tiny kick and slides down the hemisphere. What is the minimum value of the coefficient of static friction between the hemisphere and the table that ensures the hemisphere stays at rest?

Classical Mechanics

Hall of Fame

A tiny pebble of mass 2M is placed on top of a frictionless hemisphere of mass M, which rests on a table (see Figure). The pebble is given a tiny kick and slides down the hemisphere. What is the minimum value of the coefficient of static friction between the hemisphere and the table that ensures the hemisphere stays at rest?

Electricity and Magnetism	Hall of Fame
A circular wire frame of radius a and mass M has total resistance R. It slides along a horizontal frictionless surface with constant velocity toward a region with a uniform magnetic field B pointing downward perpendicular to the plane (see Figure). As the frame transitioned into the magnetic field region, its velocity decreased by ΔV. Find the change in velocity ΔV of the frame – i.e., express it in terms of given quantities (*a, M, R, B*).

Electricity and Magnetism

Hall of Fame

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AI-generated content may be incorrect. A circular wire frame of radius a and mass M has total resistance R. It slides along a horizontal frictionless surface with constant velocity toward a region with a uniform magnetic field B pointing downward perpendicular to the plane (see Figure). As the frame transitioned into the magnetic field region, its velocity decreased by ΔV. Find the change in velocity ΔV of the frame – i.e., express it in terms of given quantities (a, M, R, B).

School of Physics

College of Sciences

Spring 2025 Challenge

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