Elasticity is a type of strain that is recoverable, it is not a force. However it is caused by an imposed force which generates a stress below the yield strength of a material.
If the force is pulling or stretching a material it is known as a tensile force or stress.
An elastic force that stretches or pulls on the molecules in matter is known as tension. This force occurs when an object is being stretched or pulled in opposite directions.
Tension. The force itself is not elastic, but the material being pulled may be.
Tension stretches or pulls apart the crust.
Elasticity is a type of strain that is recoverable, it is not a force. However it is caused by an imposed force which generates a stress below the yield strength of a material. If the force is pulling or stretching a material it is known as a tensile force or stress.
When a person jumps on a trampoline, several forces come into play. The primary forces are gravity, which pulls the person downward, and the elastic force of the trampoline fabric, which pushes back against the person as it stretches. Additionally, when the jumper lands, the reaction force from the trampoline surface momentarily exceeds gravity, propelling them upward. These interactions create the characteristic bouncing motion associated with trampolines.
The force exerted by the weight exceeds the force of the elasticity that normally keeps the elastic band in a contracted state. As the band stretches, the resistance increases to the point where it is equal to the force exerted by the weight.
Yes, gravity, friction, and elastic forces can all act on an object simultaneously. Gravity is a force that pulls objects toward each other, friction resists the motion of objects sliding against each other, and elastic forces occur when an object is stretched or compressed and then returns to its original shape.
The characteristic of matter that was measured in this scenario is the building's mass, which determines how the pushes and pulls (forces) affect its motion. By measuring these forces in units of newtons, we can analyze how the building responds to external forces based on its mass.
Tension
Because any matter that pulls you to one side will be compensated by another piece of matter that pulls you in the opposite direction.Because any matter that pulls you to one side will be compensated by another piece of matter that pulls you in the opposite direction.Because any matter that pulls you to one side will be compensated by another piece of matter that pulls you in the opposite direction.Because any matter that pulls you to one side will be compensated by another piece of matter that pulls you in the opposite direction.
Tensional stress force pulls on the crust and stretches rock. This type of stress occurs where tectonic plates are moving away from each other.
Tension and compression are not forces themselves, but rather types of forces that act on objects. Tension is a force that pulls or stretches an object, while compression is a force that pushes or squeezes an object. Both tension and compression are common forces in structural mechanics.