If a team pulls with a constant force and moves the plane 3.7 m in 6.1 s (an excellent time), what fraction of the team's work goes to kinetic energy? b)If a team pulls with a constant force and moves the plane 3.7 m in 6.1 s (an excellent time), what fraction of the team's work goes to thermal energy? Express your answer numerically.

If a team pulls with a constant force and moves the plane 3.7 m in 6.1 s (an excellent time), what fraction of the team's work goes to kinetic energy? b)If a team pulls with a constant force and moves the plane 3.7 m in 6.1 s (an excellent time), what fraction of the team's work goes to thermal energy? Express your answer numerically.

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Question

a)If a team pulls with a constant force and moves the plane 3.7 m in 6.1 s (an excellent time), what fraction of the team's work goes to kinetic energy?

b)If a team pulls with a constant force and moves the plane 3.7 m in 6.1 s (an excellent time), what fraction of the team's work goes to thermal energy?

Express your answer numerically.

The Special Olympics raises money through "plane
pull" events in which teams of 25 people compete to
see who can pull a 74,000 kg airplane 3.7 m across
the tarmac. The inertia of the plane is an issue--but so
is the 14,000 N rolling friction force that works against
the teams.

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