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What type of energy have when a slinky moving down a set of stairs?
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How does a slinky go down stairs?
One little push and the Slinky will flip down the stairs.
How does a slinky work?
The Slinky, like all objects, tends to resist change in its motion. Because of this inertia, if it were placed at the top of the stairs it would stay at rest without moving at all. At this point it has potential or stored energy. But once it is started down the stairs and gravity affects it, the potential energy is converted to the energy of motion or kinetic energy and the Slinky gracefully tumbles coil by coil down the stairs.The physical properties of the slinky determine how quickly it moves under the influence of gravity. Although its movement may look simple, from a scientific point of view the motion is quite complex. As the slinky moves down the steps, energy is transferred along its length in a longitudinal or compressional wave, which resembles a sound wave that travels through a substance by transferring a pulse of energy to the next molecule. How quickly the wave moves depends on the spring constant and the mass of the metal. Other factors, such as the length of the slinky, the diameter of the coils and the height of the step must be considered to completely understand why a slinky moves as it does.
Why can't a slinky go upstairs?
slinky can't walk up stairs because gravity doesn't take the slinky up just down :[
What does up and down the stairs without moving?
a rug is the answer
What is the differences between lift and escalator?
a lift goes vertical. an escalator is moving stairs.
How does a slinky go down stairs?
One little push and the Slinky will flip down the stairs.
Which toy has the ability to walk down the stairs?
A slinky (of the correct size) can walk down the stairs.
How does a slinky?
The Slinky, like all objects, tends to resist change in its motion. Because of this inertia, if it were placed at the top of the stairs it would stay at rest without moving at all. At this point it has potential or stored energy. But once it is started down the stairs and gravity affects it, the potential energy is converted to the energy of motion or kinetic energy and the Slinky gracefully tumbles coil by coil down the stairs.The physical properties of the slinky determine how quickly it moves under the influence of gravity. Although its movement may look simple, from a scientific point of view the motion is quite complex. As the slinky moves down the steps, energy is transferred along its length in a longitudinal or compressional wave, which resembles a sound wave that travels through a substance by transferring a pulse of energy to the next molecule. How quickly the wave moves depends on the spring constant and the mass of the metal. Other factors, such as the length of the slinky, the diameter of the coils and the height of the step must be considered to completely understand why a slinky moves as it does.
How does a slinky work?
The Slinky, like all objects, tends to resist change in its motion. Because of this inertia, if it were placed at the top of the stairs it would stay at rest without moving at all. At this point it has potential or stored energy. But once it is started down the stairs and gravity affects it, the potential energy is converted to the energy of motion or kinetic energy and the Slinky gracefully tumbles coil by coil down the stairs.The physical properties of the slinky determine how quickly it moves under the influence of gravity. Although its movement may look simple, from a scientific point of view the motion is quite complex. As the slinky moves down the steps, energy is transferred along its length in a longitudinal or compressional wave, which resembles a sound wave that travels through a substance by transferring a pulse of energy to the next molecule. How quickly the wave moves depends on the spring constant and the mass of the metal. Other factors, such as the length of the slinky, the diameter of the coils and the height of the step must be considered to completely understand why a slinky moves as it does.
Why can't a slinky go upstairs?
slinky can't walk up stairs because gravity doesn't take the slinky up just down :[
Does a slinky toy spring walking down stairs require energy or release energy?
The "slinky toy walking down the stairs" requires an initial impetus or push (a gain in inertial energy) from the user, then it both gains and releases gravitational and inertial energy during the remainder of it's 'walk'. There is no free lunch with energetic systems (whether we discuss a 'slinky' or the expansion of the universe); An initial source of energy must be present and must be imparted to the system for the system to do work. Simply dropping a ball from your hand and observing it impact the ground requires, at a minimum, the gravitational potential energy of the earth imparted to the ball.
The functioning of an electron transport chain is analogous to?
a slinky toy going down a flight of stairs
How would your lives be different without the slinky?
we wouldn't have the amazement of watching it fall down the stairs
How has a slinky changed over the years?
Well, in my opinion it has got worse :/ i tried to push it down the stairs but it snapped ...
Why wont a slinky work in a wide stairs?
easy throw it down the stairs the bend and stech bend strecth you should try it. Next editor: If the "improve question" option were available: "How do Slinkys go down stairs?"
How do you make a slinky toy walk across a flat surface not on stairs?
You put it in walking position, then you blow on it as hard as you can. It'll walk in a jiffy then!
What does up and down the stairs without moving?
a rug is the answer
