Yes, weight has a huge effect on a pulley system. The amount of weight being moved or lifted directly affects how well the pulley works, and too much weight can break it altogether. Weight is also the main leverage in a pulley system.
The force required to lift an object using a pulley system depends on the weight of the object being lifted. The force needed is equal to the weight of the object being lifted plus the force required to overcome any friction in the pulley system. The mechanical advantage provided by the pulley system can help reduce the amount of force needed to lift the object.
For a movable pulley, the effort required would be half of the weight being lifted. So with a weight of 400 grams, the effort exerted would be 200 grams. The movable pulley helps distribute the load, making it easier to lift the weight.
A single movable pulley has a mechanical advantage of 2 because it reduces the effort needed to lift an object by half. This is due to the pulley system allowing the weight to be distributed between the weight being lifted and the tension in the supporting rope.
To calculate the force required to lift something with a pulley system, use the formula: Force = Weight / (number of supporting ropes). The weight is the force of gravity acting on the object being lifted. The number of supporting ropes is the number of ropes in the pulley system that are supporting the weight.
The heaviest weight lifted by a woman was 327 kg(720 lb) by Tatiana Kashirina
The heaviest weight ever lifted by a human being is 6,270 pounds, achieved by Paul Anderson in 1957.
1kg
on June 12th, 1957, Paul Anderson raised 6270 with his back, this is the heaviest weight ever lifted to date. here are some links to his lifting: http://www.oldtimestrongman.com/images5/louis_cyr4.gif http://www.oldtimestrongman.com/images6/thebacklift.gif http://www.hudsonpowerteam.org/pictures/anderson-1.JPG
The maximum weight that can be lifted for 5 repetitions in the 5RM test is the heaviest weight that a person can lift for exactly 5 repetitions without compromising form or technique.
Yes, weight has a huge effect on a pulley system. The amount of weight being moved or lifted directly affects how well the pulley works, and too much weight can break it altogether. Weight is also the main leverage in a pulley system.
Leonid Taranenko of the USSR lifted 266.0Kg in the Clean & Jerk in 1988. This remains the heaviest ever Clean and Jerk recorded in competition.
the heaviest weight ever benchpressed by one person was by colin Taylor of inverness Scotland the weight lifted was 400kg
The force required to lift an object using a pulley system depends on the weight of the object being lifted. The force needed is equal to the weight of the object being lifted plus the force required to overcome any friction in the pulley system. The mechanical advantage provided by the pulley system can help reduce the amount of force needed to lift the object.
the effort needed to lift an object is about the same as the weight of an object:)
For a movable pulley, the effort required would be half of the weight being lifted. So with a weight of 400 grams, the effort exerted would be 200 grams. The movable pulley helps distribute the load, making it easier to lift the weight.
A single movable pulley has a mechanical advantage of 2 because it reduces the effort needed to lift an object by half. This is due to the pulley system allowing the weight to be distributed between the weight being lifted and the tension in the supporting rope.