When a slinky falls down the stairs, the main forces acting on it are gravity pulling it downward and tension in the coil resisting the stretching of the slinky due to its own weight. Friction between the slinky and the stairs also plays a role in slowing down the slinky's descent.
A slinky can "walk" down stairs due to the transfer of energy from the top of the stairs to the bottom. As the top of the slinky is released, gravity pulls it down, causing a wave of compression and expansion that propels the slinky downwards step by step.
A slinky goes down the stairs by the force of gravity pulling it downwards. As one end of the slinky begins to descend, this creates a wave-like motion that propels the rest of the slinky down the stairs in a cascading fashion. The tension in the coils helps to maintain its structure as it moves.
The slinky has kinetic energy as it moves down the stairs due to its motion. This kinetic energy is a form of mechanical energy.
To make a slinky walk, hold one end of the slinky and let the other end dangle. Gently move your hand up and down so that the slinky "walks" down your hand in a wave-like motion. The momentum of the slinky moving down your hand causes it to walk.
A slinky would have difficulty going upstairs because its movement relies on gravity and a smooth, continuous surface to travel on. The steps of the stairs disrupt the slinky's ability to maintain its shape and movement, causing it to become tangled or stuck.
A slinky (of the correct size) can walk down the stairs.
A slinky can "walk" down stairs due to the transfer of energy from the top of the stairs to the bottom. As the top of the slinky is released, gravity pulls it down, causing a wave of compression and expansion that propels the slinky downwards step by step.
A slinky goes down the stairs by the force of gravity pulling it downwards. As one end of the slinky begins to descend, this creates a wave-like motion that propels the rest of the slinky down the stairs in a cascading fashion. The tension in the coils helps to maintain its structure as it moves.
The slinky has kinetic energy as it moves down the stairs due to its motion. This kinetic energy is a form of mechanical energy.
we wouldn't have the amazement of watching it fall down the stairs
To make a slinky walk, hold one end of the slinky and let the other end dangle. Gently move your hand up and down so that the slinky "walks" down your hand in a wave-like motion. The momentum of the slinky moving down your hand causes it to walk.
Falling Down Stairs Productions - 2012 was released on: USA: 8 February 2012
Talking Like I'm Falling Down Stairs was created on 2010-09-01.
A slinky would have difficulty going upstairs because its movement relies on gravity and a smooth, continuous surface to travel on. The steps of the stairs disrupt the slinky's ability to maintain its shape and movement, causing it to become tangled or stuck.
Slinkys climb down stairs through a combination of gravitational force and the slinky's own elasticity. When a slinky is placed at the top of a staircase, the force of gravity pulls it downward, causing the coils to extend and compress as they descend. As the front end of the slinky drops down a step, the back end follows, creating a wave-like motion that allows it to "walk" down each step. This movement continues until the slinky reaches the bottom of the staircase.
no its wrong akbar was not fell down but he was humayun who fell down to stairs & died
Well, in my opinion it has got worse :/ i tried to push it down the stairs but it snapped ...