When an object is stretched, the intermolecular bonds within the material are pulled apart, causing the object to lengthen. The material stores elastic potential energy as it is stretched, which is released once the stretching force is removed, causing the object to return to its original shape. If the stretching force is too great, the object may deform permanently or break.
When an object is stretched, the force that occurs is known as tension. Tension is a pulling force that acts on the object in the direction of the stretch, attempting to restore the object back to its original shape.
Elastic potential energy is stored in a stretched string, which is the energy stored in an object when it is deformed (such as being stretched) and can be released when the object returns to its original shape.
When an object is stretched or compressed, it possesses potential energy due to the work done in deforming the object. This potential energy is stored within the object and is released when the object returns to its original shape.
The potential energy associated with objects that can be stretched is called elastic potential energy. This energy is stored within the stretched object and can be released when the object returns to its original shape.
As an object moves away from you, the wavelength of light appears to lengthen, known as redshift. This is a result of the Doppler effect, where the motion of the object causes the light waves to stretch out. The further the object moves away, the more stretched out the light waves become.
The rock will break because it can be stretched no farther. An object stretched beyond its elastic limit may be deformed (adopt a new permanent resting shape) or break.
When an object is stretched, the force that occurs is known as tension. Tension is a pulling force that acts on the object in the direction of the stretch, attempting to restore the object back to its original shape.
it becomes thinner. mass can't be created or destroyed, it only encompasses solids , liquids, and gasses.
tension.
Elastic potential energy is stored in a stretched string, which is the energy stored in an object when it is deformed (such as being stretched) and can be released when the object returns to its original shape.
When an object enters a black hole, it starts being stretched. As it moves closer and closer to the center of the black hole, the gravitational pull on the part of the object that is closer to the center becomes more powerful than the gravitation pull on the part of the object that is farther away from the center. The objects keeps on getting stretched until it reaches the center of the black hole. We don't yet know what happens at that point.
When an object is stretched or compressed, it possesses potential energy due to the work done in deforming the object. This potential energy is stored within the object and is released when the object returns to its original shape.
tension.
The potential energy associated with objects that can be stretched is called elastic potential energy. This energy is stored within the stretched object and can be released when the object returns to its original shape.
As an object moves away from you, the wavelength of light appears to lengthen, known as redshift. This is a result of the Doppler effect, where the motion of the object causes the light waves to stretch out. The further the object moves away, the more stretched out the light waves become.
Yes. Objects can be stretched and compressed.
When an object is stretched or squashed, the energy involved is potential energy stored in the object's deformation. This potential energy comes from the work done to change the object's shape. The amount of potential energy stored is directly related to the amount of deformation the object undergoes.