Respuesta :
The components of the velocity vector that represent the change in the particle's position vector will be independent of one another as long as the components of the particle's position vector are independent of one another.
Can the z component of the acceleration affect the x and y component?
- Similar to position and velocity vector components, acceleration vector components are also independent of one another.
- For example, any change in the z component of the acceleration vector would not affect the x or y components of the object's position and velocity vector.
- However, if one makes the assumption that, let's say, the particle's x position is dependent on its z position The x component of the position vector can then be connected to any change in the z component of the velocity vector.
- The x component of the position vector can be adjusted to account for any changes in the z component of the acceleration vector.
Learn more about the acceleration vector with the help of the given link:
https://brainly.com/question/13590043
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I understand that the question you are looking for is "A particle moves in three-dimensional space with a constant acceleration. Can the z component of the acceleration affect the x component of its location? Can the z component of the acceleration affect the y component of the velocity?"
