What does this word mean in physics language?

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In physics, "relative" refers to measurements that depend on a chosen reference point, making quantities meaningful only when compared to that point. For example, velocity is relative because it requires a reference to provide context, such as stating an object moves at 5 m/s relative to a lamppost. The term "arbitrary" indicates that any unit or reference point can be used without affecting the relative comparison, such as measuring speed in different units while maintaining the same ratio. Additionally, the phrase "relative to B" can imply either a coordinate system fixed to B or a value subtraction, which can lead to different interpretations in classical physics versus relativity. Understanding these concepts is crucial for accurate communication in physics.
kyin01
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relative and arbitrary

for example

"I can take relative to any point I choose. I choose this point here arbitrary"

And

"relative to that point."
 
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They mean the same as they do in English.
 
You said it in your post. For instance, velocity can be considered relative because it needs a reference point - generally, it means that you need 2 pieces of information for a quantity to be meaningful. So if I say somethings has a speed of 5m/s, that's meaningless, but if I say 5m/s relative to that lampost, then it has meaning.

Arbitrary - exactly that. When comparing quantities relative to each other and a third reference point, we can use arbitrary units. E.g. if one car in a drag race is moving 2x faster than another relative to the start point and we use arbitrary time units, it does not matter what units we use (metres, feet, Planck lengths, etc), the relative velocity will be 2x. In general, that means no specific reason for choosing a unit/point of reference.
 
Arbitrary point/quantity value x: any point or quantity value from the space of allowed positions/values.

The expression " relative to B" can have different meanings:
sometimes it means "in coordinate system fixed to B", else it can mean "when the value at B is subtracted".
Those two meanings are sometimes identical, sometimes not. For example: speed of object A in the system fixed on object B is
v(A)-v(B) in classical physics, but not in the theory of relativity.
 
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