they are the same because they are elastic forces
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.
The opposite of compression force is tension force. Compression force acts to compress or squeeze an object, while tension force acts to stretch or pull an object in opposite directions.
The four internal forces are tension, compression, torsion, and shear. Tension is a stretching force, compression is a compressing force, torsion is a twisting force, and shear is a sliding force.
compression and tension Compression is a squeezing force, while tension is a pulling force.
The most common forces shown in a diagram are gravity, normal force, tension, friction, and applied force. These forces act on an object to influence its motion or determine its equilibrium.
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.
Tension and compression takes place when an object has a force on another object. The tension is when the force is causing a pulling effect on part of the object. The compression is when the force is causing a contracting effect on part of the object.
The opposite of compression force is tension force. Compression force acts to compress or squeeze an object, while tension force acts to stretch or pull an object in opposite directions.
The four internal forces are tension, compression, torsion, and shear. Tension is a stretching force, compression is a compressing force, torsion is a twisting force, and shear is a sliding force.
compression and tension Compression is a squeezing force, while tension is a pulling force.
elastic force
The most common forces shown in a diagram are gravity, normal force, tension, friction, and applied force. These forces act on an object to influence its motion or determine its equilibrium.
Two types of elastic forces are tension and compression. Tension is a force that stretches or elongates an object, while compression is a force that squeezes or shortens an object. Both forces are examples of elastic deformation, where the object returns to its original shape once the force is removed.
1. Applied Force2. Gravity Force
When a wire is pulled, it is said to be in tension. Tension is the force that stretches the wire and tries to pull it apart. This is in contrast to compression, which is the force that pushes a material together.
In structural engineering, tension and compression are two types of forces that act on materials. Tension is a pulling force that stretches or elongates a material, while compression is a pushing force that shortens or compresses a material. The main difference between tension and compression is the direction in which the force is applied: tension pulls the material apart, while compression pushes the material together. These forces can affect the stability and strength of structures, so engineers must consider them carefully when designing buildings and bridges.
It's all about compression and tension. Compression is the force pushing in on an object. If you sit in a chair your weight is a compressive force on the chair. Tension is the force pulling on an object. If you hang from a rope your weight puts the rope in tension. Stone is very strong under compression but can break easily under tension. An arch bridge only has compression forces within it so stone is a good material for an arch bridge.