Asked by Brandon

When an 81.0 kg adult uses a spiral staircase to climb to the second floor of his house, his gravitational potential energy increases by 2.25 103 J. By how much does the potential energy of a 17.0 kg child increase when the child climbs a normal staircase to the second floor?
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Answered by drwls
It makes no difference of the staircase is spiral or "normal". What matters is the top to bottom elevation change.

The PE gain will be proportional to the person's mass.

Mulltiply 2.25*10^3 J by 17/81 (the mass ratio) and you will get the child's PE change
Answered by Anonymous
87
Answered by haird
Grav PE of the adult = mgh = 2X10^3 J 81gh = 2X10^3 J gh = 2X10^3 / 81 Child's grav PE = mgh = 18 x 2x10^3 /81 = 444.4J
Answered by When an 81.0-kg adult uses a spiral staircase to climb to the second floor of his house, his gravita
When an 81.0-kg adult uses a spiral staircase to climb to the second floor of his house, his gravitational potential energy increases by 2,00x10). By how much does the potential energy of an 18.0-kg child increase when the child climbs a normal staircase to the second floor?
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