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The torque exerted on a seesaw is affected by the weight distribution on each end. When a person stands on the seesaw, the torque changes based on their position relative to the fulcrum. If the person hangs from the seesaw, the torque is still influenced by their weight distribution but may also be affected by their movement.
What else can I help you with?
Is the torque changed when a partner on a seesaw stands or hangs from her end instead of sitting?
Yes, the torque changes when a partner on a seesaw stands or hangs from her end instead of sitting. The torque is influenced by both the amount of force applied and the distance from the pivot point. When standing or hanging, the distance changes, affecting the torque.
Is the net torque changed when a partner on a seesaw stands or hangs from her end instead of sitting?
Yes, the net torque changes because the distance from the pivot point to the partner's center of mass is altered when she stands or hangs instead of sitting. Standing or hanging position increases the moment arm, affecting the torque exerted on the seesaw.
How does a lighter lift a heaver person on a seesaw?
A lighter person sitting closer to the pivot point of a seesaw exerts a smaller torque compared to a heavier person sitting farther from the pivot point. This difference in torque allows the heavier person to be lifted. The principle involved is torque, or the rotational force, in relation to the pivot point.
What is the physics of a seesaw?
A seesaw operates on the principle of torque, or rotational force. When one side goes down, the other side goes up due to differences in the forces acting on each side. The heavier person or object creates more torque and causes the seesaw to tilt in their direction.
Find the torque tau about the pivot due to the weight w of Gilles on the seesaw?
The torque due to Gilles' weight on the seesaw is equal to the weight of Gilles multiplied by the distance from the pivot point to where Gilles is sitting. This torque is given by the equation: torque = weight * distance.
Is the torque changed when a partner on a seesaw stands or hangs from her end instead of sitting?
Yes, the torque changes when a partner on a seesaw stands or hangs from her end instead of sitting. The torque is influenced by both the amount of force applied and the distance from the pivot point. When standing or hanging, the distance changes, affecting the torque.
Is the net torque changed when a partner on a seesaw stands or hangs from her end instead of sitting?
Yes, the net torque changes because the distance from the pivot point to the partner's center of mass is altered when she stands or hangs instead of sitting. Standing or hanging position increases the moment arm, affecting the torque exerted on the seesaw.
How does a lighter lift a heaver person on a seesaw?
A lighter person sitting closer to the pivot point of a seesaw exerts a smaller torque compared to a heavier person sitting farther from the pivot point. This difference in torque allows the heavier person to be lifted. The principle involved is torque, or the rotational force, in relation to the pivot point.
What is the physics of a seesaw?
A seesaw operates on the principle of torque, or rotational force. When one side goes down, the other side goes up due to differences in the forces acting on each side. The heavier person or object creates more torque and causes the seesaw to tilt in their direction.
Find the torque tau about the pivot due to the weight w of Gilles on the seesaw?
The torque due to Gilles' weight on the seesaw is equal to the weight of Gilles multiplied by the distance from the pivot point to where Gilles is sitting. This torque is given by the equation: torque = weight * distance.
Where does the heavier person need to sit on a seesaw?
Oh, dude, the heavier person needs to sit closer to the fulcrum on a seesaw to balance out the weight with the lighter person sitting farther away. It's all about physics and stuff, like, who knew a playground toy could teach us about leverage, right? Just remember, don't go launching your friend into orbit if you want to keep the seesaw fun going.
What type of force used to seesaw?
The type of force used on a seesaw is mechanical force. When one end of the seesaw is pushed down, it creates a torque force that allows the other end to go up, based on the principle of the lever.
What force does a seesaw use push or pull?
A seesaw uses a combination of gravitational force and the pushing/pulling force applied by the users to create the motion. The pushing and pulling forces result in a torque that moves the seesaw up and down around its pivot point.
A 600 N girl sits 6m away from the pivot of a seesaw what force is needed to balance the see-saw from 9 m away?
600 * 6 / 9 = 400 newton
Bernie and Bianca are on a seesaw Bernie weighs 75 pounds and Bianca weighs 60 pounds If the seesaw is blanced evenly who is sitting closer to the fulcrum?
Well, darling, it's simple math - the closer you are to the fulcrum, the less weight you have to counterbalance. So, if Bernie weighs 75 pounds and Bianca weighs 60 pounds, Bianca is sitting closer to the fulcrum because she has less weight to lift. It's all about physics, honey.
How can a kids who have different weights balance a seesaw?
Kids with different weights can balance a seesaw by adjusting their positions on the seesaw. The heavier child should sit closer to the center, while the lighter child sits further out. This way, the torque on both sides of the seesaw will be equal and it will stay balanced.
What is the relation between torque and angular momentum?
Torque is the rate of change of angular momentum. When a torque is applied to an object, it causes a change in the object's angular momentum. Conversely, an object with angular momentum will require a torque to change its rotational motion.
