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Pushing and Pulling differ like Positive and Negative directions.
By Unbalanced forces(pulling and pushing)
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.
Machines can exert both pushing and pulling forces depending on their design and intended function. The ability to apply forces in different directions is essential for various mechanical applications. Pushing: Machines can exert a pushing force to move objects away from their point of application. For instance, a hydraulic press applies force to compress materials, or a bulldozer pushes soil or debris forward. Pulling: Machines can also exert a pulling force to move objects towards their point of application. A winch pulling a heavy load, or a tractor pulling a trailer are common examples of machines using pulling forces.
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.
No, they are forces
Pushing and Pulling differ like Positive and Negative directions.
By Unbalanced forces(pulling and pushing)
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.
In physics, there is no special distinction - no special names to distinguish - pushing forces from pulling forces. Of course, you can simply call it "a pushing force", if you want to make such a distinction.
they both uses forces...
It means that some force is pushing or pulling on an object.
Machines can exert both pushing and pulling forces depending on their design and intended function. The ability to apply forces in different directions is essential for various mechanical applications. Pushing: Machines can exert a pushing force to move objects away from their point of application. For instance, a hydraulic press applies force to compress materials, or a bulldozer pushes soil or debris forward. Pulling: Machines can also exert a pulling force to move objects towards their point of application. A winch pulling a heavy load, or a tractor pulling a trailer are common examples of machines using pulling forces.
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.
* can someone please at least have answers to this question???????What is your question?
Forces used when brushing your teeth are pushing, pulling and rotating
pushing