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Do weights have to be equidistant from the fulcrum to make it even?
If you have two objects of equal weight on either end of a lever, then they must be equidistant from the fulcrum to make the lever balance.If one object weighs more than the other, then that one has to be closer to the fulcrum.
How can a lever be balanced?
A lever can be balanced by adjusting the position of the load and the effort force so that they are equal distances from the fulcrum, or pivot point. This ensures that the moments on either side of the fulcrum are equal, resulting in a balanced lever.
Where is the center of gravity of a uniform rod?
The centre of the cross-section, halfway along the length of the rod.
What part of a wheelbarrow is a fulcrum?
The wheel and axle on a wheelbarrow serve as the fulcrum, allowing for balanced movement and proper distribution of weight when lifting or moving objects.
What are the names to parts of a balance scale?
The main parts of a balance scale are the beam, pan (or platform), fulcrum, pointer, and base. The beam is the horizontal rod that holds the pans on each end, while the fulcrum is the point where the beam pivots. The pointer indicates when the scale is balanced, and the base provides stability for the entire structure.
Do weights have to be equidistant from the fulcrum to make the weight even?
no
Do weights have to be equidistant from the fulcrum to make it even?
If you have two objects of equal weight on either end of a lever, then they must be equidistant from the fulcrum to make the lever balance.If one object weighs more than the other, then that one has to be closer to the fulcrum.
How can a lever be balanced?
A lever can be balanced by adjusting the position of the load and the effort force so that they are equal distances from the fulcrum, or pivot point. This ensures that the moments on either side of the fulcrum are equal, resulting in a balanced lever.
What is the difference between symmetrical balance and asymmetrical balance?
A symmetrical balance has its fulcrum at the midpoint of the horizontal bar and equal weights at either end. In an asymetrical balance the fulcrum is not at the centre and consequently the weights on the two sides are in inverse proportion to the lengths of the horizontal bar to the fulcrum.
Where is the center of gravity of a uniform rod?
The centre of the cross-section, halfway along the length of the rod.
What part of a wheelbarrow is a fulcrum?
The wheel and axle on a wheelbarrow serve as the fulcrum, allowing for balanced movement and proper distribution of weight when lifting or moving objects.
What is the balance point called?
If it is a level which is balanced, then it is the fulcrum. Otherwise, it is the centre of gravity.
What are the names to parts of a balance scale?
The main parts of a balance scale are the beam, pan (or platform), fulcrum, pointer, and base. The beam is the horizontal rod that holds the pans on each end, while the fulcrum is the point where the beam pivots. The pointer indicates when the scale is balanced, and the base provides stability for the entire structure.
How is a heavy boy balanced by a lighter boy on a see saw?
A heavy boy can be balanced by a lighter boy on a seesaw by adjusting their positions relative to the pivot point (fulcrum). The lighter boy can sit farther away from the fulcrum, increasing his leverage, while the heavier boy sits closer to it. This arrangement allows the moments (force times distance from the fulcrum) on both sides to equalize, achieving balance. Essentially, the seesaw balances when the product of weight and distance from the fulcrum is the same on both sides.
Where is fulcrum load and effort in fishing rod?
In a fishing rod, the load is the force of the fish pulling on the line, the fulcrum is the point where the rod bends to absorb this force, and the effort is the force applied by the angler to reel in the fish. The load and effort are balanced at the fulcrum point to allow for efficient fishing.
Is a balanced scale a first-class lever?
Yes because the fulcrum is in the middle the effort is on one side and the load is on the other side
When a seesaw that is 6m long is balanced what is the upward force provided by the ground on the fulcrum?
The upward force provided by the ground on the fulcrum of a balanced 6m long seesaw would be equivalent to half of the total weight of the seesaw and any individuals on it. This is due to the principle of torques in static equilibrium where the clockwise and counterclockwise torques are equal.
