The line which has greater slope stands for the fast moving object
Stationary mean "not moving" so it must mean the the position is not moving or stay the same place.
If the frame of reference is the ground, and if you are running forward, you are indeed moving faster than the plane. If you are running toward the rear of the plane, you are moving slower than the plane.
It depends on what variables are graphed.
A translation.
An object which is not changing in it's position in space. In simply it is at rest
You can test if something is moving by observing its change in position over time. This can be done by comparing its position at different time intervals or by using tools like a speedometer or motion sensors to measure its speed or velocity.
Different texture
By comparing the object with a stationary object. For instance, we are standing apparently still on earth, yet by comparing our position against the sun and stars, we have proof that the earth is actually moving.
You would breathe faster because your musles are not used to the exercise, and require more oxygen. because at a speed or position when your body is moving that is different than it is normally you breathe faster. Oh by the way I am 78% sure I am right about this answer
Assuming position is on the y axis and time is on the x axis, a positive slope means the position has increased over time.
You are not moving, if you are comparing to the car.
This is related to the atoms moving faster when the object is hotter. Atoms have more energy, move faster, and this simply lets them move a bit farther away from their rest position.
If someone's speed changes, it means they are moving faster or slower than before. If someone's direction changes, it means they are now moving in a different path or route. Both changes can affect the individual's position, velocity, and acceleration.
try moving the steering column to a different tilt position-------
a mountain has faster moving water
An example of kinetic energy is a moving car. As the car moves, it possesses kinetic energy due to its motion. The faster the car goes, the more kinetic energy it has.
No, potential energy depends on the height and mass of an object relative to a reference point, not its speed. The faster-moving object may have more kinetic energy, but potential energy is not affected by speed.