Are 3-vectors Defined by Their Transformation Properties?

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Therefore, it is possible to formulate nonrelativistic kinematics in terms of nonrelativistic 4-vectors, but they would not have the same properties as relativistic 4-vectors. In summary, it is possible to define usual 3-vectors by their transformation properties wrt rotations and Galileian transformations. However, vectors in space can also be defined by their transformation properties wrt isometries of space. Additionally, nonrelativistic kinematics can be formulated in terms of nonrelativistic 4-vectors, but they would not have the same properties as relativistic 4-vectors due to the limit c → ∞ in the Lorentz transformations.
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Heirot
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Are the usual 3-vectors defined by their transformation properties wrt rotations or Galileian transformations? E.g. kinetic energy would be a scalar wrt rotations but not wrt Galileian transformations.

Thanks!
 
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Galilean tranformations are transformations of spacetime, not space. Vectors in space can be defined by their transformation properties wrt rotations and reflections. Free vectors which can start at any point can be defined wrt isometries of space, i.e. rotations + displacements.
 
  • #3
Oh, I see. Could it be possible to formulate nonrelativistic kinematics in terms of nonrelativistic 4-vectors? E.g. just put c->infinity in Lorentz transformations?
 
  • #4
Yes, the Lorentz transformations become Galilean transformations in the limit c → ∞.
 
Last edited:

What is the definition of 3-vectors?

3-vectors, also known as three-dimensional vectors, are mathematical objects that have a magnitude and direction in three-dimensional space. They are typically represented by a set of three numbers or coordinates.

What is the difference between 3-vectors and scalars?

3-vectors have both magnitude and direction, while scalars only have magnitude. This means that 3-vectors can be visualized as arrows in three-dimensional space, while scalars can only be represented by a single number.

Can 3-vectors be added or subtracted?

Yes, 3-vectors can be added or subtracted. This operation is known as vector addition or subtraction, and it involves adding or subtracting the corresponding components of the vectors.

What is the dot product of 3-vectors?

The dot product of 3-vectors is a mathematical operation that results in a scalar value. It is calculated by multiplying the corresponding components of the vectors and then adding them together.

How are 3-vectors used in physics?

In physics, 3-vectors are used to describe physical quantities that have both magnitude and direction, such as velocity, acceleration, and force. They are also used in geometric and vector-based calculations in many areas of physics, including mechanics, electromagnetism, and quantum mechanics.

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