compression and tension Compression is a squeezing force, while tension is a pulling force.
Pushing and Pulling differ like Positive and Negative directions.
There are absolutely no such things as "pulling" forces. Force = mass x Acceleration F = mA That physically means that "the mass" is Accelerating (moving). That physically and absolutely means that the mass can only push. "Pulling" is simply "Pushing" on the inside of any attached grip to any piece of mass.
It doesn't really matter; it can be either - or even both: one or more forces can be pulling and one or more forces can be pushing. Or a single pulling or pushing force. The point is, to be called "unbalanced", the sum of all forces must NOT be zero.
A light hanging from the ceiling does not move because the force of gravity pulling down on the light is balanced by the force of tension in the cord pulling upward
Forces such as tension , gravitation are pulling forces.
compression and tension Compression is a squeezing force, while tension is a pulling force.
No, they are forces
Tinsile strength
Pushing and Pulling differ like Positive and Negative directions.
There are absolutely no such things as "pulling" forces. Force = mass x Acceleration F = mA That physically means that "the mass" is Accelerating (moving). That physically and absolutely means that the mass can only push. "Pulling" is simply "Pushing" on the inside of any attached grip to any piece of mass.
It doesn't really matter; it can be either - or even both: one or more forces can be pulling and one or more forces can be pushing. Or a single pulling or pushing force. The point is, to be called "unbalanced", the sum of all forces must NOT be zero.
No it is not true
Pulling on a line between two forces creates "tension" in the line.
Forces in chemistry are electrical forces.
tension forces , compression forces , shearing forces
divergent, convergent, and transform are the types of forces that create landforms