Pressure. Actually, pressure is a force divided by an area.
Pressure. Actually, pressure is a force divided by an area.
Pressure. Actually, pressure is a force divided by an area.
Pressure. Actually, pressure is a force divided by an area.
The force that occurs when matter is pulled or stretched is called tension. Tension is a pulling force that acts along the length of a flexible object, such as a rope or cable, and it arises from the stretching of the material.
Pressure. Actually, pressure is a force divided by an area.
tension! :)
Compresion
The resulting force when matter is pulled or stretched is called tension. It is a pulling force that occurs within the body of a material when it is subjected to external loading.
The elastic force that stretches or pulls matter is called tension. Tension is a pulling force that arises when an object is being stretched or pulled in opposite directions.
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.
The name given to the stretching force that occurs in a spring or rope being pulled is tension. It is a pulling force exerted by the material when it is stretched or pulled.
Force tension is the force experienced by an object when it is pulled or stretched. It is a type of force that occurs in a rope, cable, or any object that is being stretched or pulled. The magnitude of tension is equal to the force applied to stretch or pull the object.
The resulting force when matter is pulled or stretched is called tension. It is a pulling force that occurs within the body of a material when it is subjected to external loading.
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.
The name given to the stretching force that occurs in a spring or rope being pulled is tension. It is a pulling force exerted by the material when it is stretched or pulled.
Force tension is the force experienced by an object when it is pulled or stretched. It is a type of force that occurs in a rope, cable, or any object that is being stretched or pulled. The magnitude of tension is equal to the force applied to stretch or pull the object.
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.
Force produced is reduced, when the muscle is over-stretched or under-stretched it is weaker. Most muscles will produce max force at roughly 90 degrees.
The force is called tension. It occurs when an object is being pulled apart, causing the internal particles to experience forces in opposite directions.
The elastic force that stretches or pulls matter is called tension. Tension is a pulling force that arises when an object is being stretched or pulled in opposite directions.
The force on a rope when both ends are pulled in opposite directions is called tension. Tension is a pulling force exerted by a material when it is stretched.
The force that pulls an object apart is called tension. Tension occurs when a material is stretched or pulled in opposite directions, causing it to become elongated.
Tensional force is created when there is an applied force that pulls or stretches an object. This force is typically generated by the interaction between two objects or components, such as when a rope is pulled from both ends or when a spring is stretched. Tensional force is responsible for maintaining the structural integrity of the object and counteracting the forces trying to compress or break it.
When a spring is stretched, the atoms within the spring rearrange themselves to accommodate the added force. This results in an increase in potential energy stored within the spring due to the stretching. The spring exerts an equal and opposite force in an attempt to return to its natural position, causing it to behave like a restoring force when stretched.