That would be weight.
You would measure weight.
A spring scale is used to measure weight by attaching the object to be weighed to the hook of the scale. The gravitational force acting on the object causes the spring inside the scale to stretch or compress, leading to a reading on the scale that corresponds to the weight of the object.
The N on a spring scale should measure newtons but I'm not 100% sure.
A spring scale is used to measure weight, which is the force acting on an object due to gravity. A balance scale is typically used to measure mass, which is the amount of matter in an object.
The spring scale was invented to measure the force of gravity on an object, which is the weight of the object. By extending or compressing a spring, the scale can provide a measurement of this force in units like pounds or newtons. This invention made it easier to measure weight accurately and consistently.
You would measure weight.
yes, because you can measure weight with a scale
A spring scale is used to measure force or mass
If the fish does not struggle (it would have to be dead not to) and above water, then you can measure a spring scale.
Not really...A spring scale is largely inacurate. For Chemical or Scientific purposes, a spring scale is not the answer.
A spring scale
spring scale is like we measure he measurethe mass tool used to measure force
A spring scale is used to measure the weight of an object by the stretching of a spring. It is commonly used in schools, laboratories, and households to measure the force exerted by an object due to gravity.
the spring scale is designed to measure the strength and flexibility of spring it is helpfull in many buisnesses :)
Spring scales can measure grams, newtons, or pounds.
Weight is the property measured by a spring scale. That is Mass X Acceleration.
A spring scale measures force in newtons. It works based on Hooke's law, which states that the force applied to a spring is directly proportional to the extension or compression of the spring. The scale calculates the amount of force required to extend or compress the spring.