Yes. On Earth, the reference point is easy to define: it is either the ground, sky, or things. In space, it's not so easy, but we often use the Sun as a reference. Beyond the Sun, perhaps the motion of our solar system could be measured using the Milky Way galaxy as a reference.
True. Motion is always observed relative to a frame of reference, which provides a fixed point against which motion is measured. This allows us to quantify and describe the motion of an object accurately.
The object is in motion relative to the reference point.
There is no such thing as a "stationary" object. Every motion is always measured relative to something else, which, coincidentally, is what the question is all about. The thing against which motion is measured is called the "reference frame".
The concept of relative motion is when the motion of an object is described with respect to a reference point and a reference direction. This means that the position, velocity, and acceleration of the object are measured or calculated in relation to the chosen reference point and direction. It helps in understanding how the object's motion changes in relation to its surroundings.
reference point
Quantities such as speed, temperature, and position must always be measured or described relative to a reference point or standard in order to have meaning. For example, speed is measured relative to a specific point in time, temperature is measured relative to a chosen scale, and position is described relative to a coordinate system.
True. Motion is always measured in relationship to a point of reference. This point of reference can be stationary or moving itself, but it is essential for determining the position, speed, and direction of an object in motion.
motion occurs when an object changes its position relative to a reference point.
refrence point is a point relative to which a motion can be observed
A change in an object's position relative to a reference point is called motion.
Relative to any chosen reference point.
If we're in the realm of newtonian physics I would say that it couldn't be in motion relative to a reference point, of course quantum physics and seems to prove everything we believe wrong.