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cinico
cinico
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This explains it:

The box is sealed from outside and the ropes are not connected to the weight. When you pull the ropes out you are creating a pressure difference caused by the displacement of the volume occupied by the ropes (isochoric process). If the ropes are equal in size, this will mean that by heyou will get the same displacement per rope, i.e. the same pressure difference per rope thus the same force per rope.

This is analogous to a case where you connect two syringes (instead of ropes) to a sealed box (optionally with something just laying inside it).

This explains it:

The box is sealed from outside and the ropes are not connected to the weight. When you pull the ropes out you are creating a pressure difference caused by the displacement of the volume occupied by the ropes (isochoric process). If the ropes are equal in size, this will mean that by he same displacement per rope, i.e. the same pressure difference per rope thus the same force per rope.

This is analogous to a case where you connect two syringes (instead of ropes) to a sealed box (optionally with something just laying inside it).

This explains it:

The box is sealed from outside and the ropes are not connected to the weight. When you pull the ropes out you are creating a pressure difference caused by the displacement of the volume occupied by the ropes (isochoric process). If the ropes are equal in size, this will mean that you will get the same displacement per rope, i.e. the same pressure difference per rope thus the same force per rope.

This is analogous to a case where you connect two syringes (instead of ropes) to a sealed box (optionally with something just laying inside it).

added 154 characters in body
Source Link
cinico
cinico
  • 422
  • 2
  • 7

This explains it:

The box is sealed from outside and the ropes are not connected to the weight. When you pull the ropes out you are creating a pressure difference caused by the displacement of the volume occupied by the ropes (isochoric process). If the ropes are equal in size, this will mean that by he same displacement per rope, i.e. the same pressure difference per rope thus the same force per rope.

This is analogous to a case where you connect two syringes (instead of ropes) to a sealed box (optionally with something just laying inside it).

This explains it:

The box is sealed from outside and the ropes are not connected to the weight. When you pull the ropes out you are creating a pressure difference caused by the displacement of the volume occupied by the ropes (isochoric process). If the ropes are equal in size, this will mean that by he same displacement per rope, i.e. the same pressure difference per rope thus the same force per rope.

This explains it:

The box is sealed from outside and the ropes are not connected to the weight. When you pull the ropes out you are creating a pressure difference caused by the displacement of the volume occupied by the ropes (isochoric process). If the ropes are equal in size, this will mean that by he same displacement per rope, i.e. the same pressure difference per rope thus the same force per rope.

This is analogous to a case where you connect two syringes (instead of ropes) to a sealed box (optionally with something just laying inside it).

Source Link
cinico
cinico
  • 422
  • 2
  • 7

This explains it:

The box is sealed from outside and the ropes are not connected to the weight. When you pull the ropes out you are creating a pressure difference caused by the displacement of the volume occupied by the ropes (isochoric process). If the ropes are equal in size, this will mean that by he same displacement per rope, i.e. the same pressure difference per rope thus the same force per rope.