Friction.
Friction.
False. A contra example; Triton has a circular motion about Neptune Newton's first law of motion: a body remains a rest or in uniform motion in a straight line unless acted upon by a force. If there is a centripetal force towards a point acting on a body that is moving then that body will have circular motion. The body and point do not have to be on earth.
Circular motion is associated with a centripetal force . Rotational motion is associated with torque. Rotation is always when a body moves on its own axis .Circular when the body moves around some other body .
Inertia is a bodies resistance to velocity change upon application of a force, so essentially its directly proportional to its mass.
your body can sense constant acceleration. For example, you can sense a car speeding up or slowing down or a plane taking off, because the organs inside your body have inertia and they tend to stay in their present state of motion when other parts of your body are changing their state of motion. This difference can be sensed by nerves throughout your body.
Friction.
Friction.
Friction.
Yes. Your heat is always in motion. Your lungs are always in motion. Your eyes are almost always in motion. Your brain is always thinking but i'm not sure if you consider that in motion. hope i helped.
Sure OF COURSE
Sure OF COURSE
opposing the motion
False. A contra example; Triton has a circular motion about Neptune Newton's first law of motion: a body remains a rest or in uniform motion in a straight line unless acted upon by a force. If there is a centripetal force towards a point acting on a body that is moving then that body will have circular motion. The body and point do not have to be on earth.
Circular motion is associated with a centripetal force . Rotational motion is associated with torque. Rotation is always when a body moves on its own axis .Circular when the body moves around some other body .
Inertia is a bodies resistance to velocity change upon application of a force, so essentially its directly proportional to its mass.
your body can sense constant acceleration. For example, you can sense a car speeding up or slowing down or a plane taking off, because the organs inside your body have inertia and they tend to stay in their present state of motion when other parts of your body are changing their state of motion. This difference can be sensed by nerves throughout your body.
If the 'weight' of a body is the gravitational force between the body and the Earth, then as long as the body stays at about the same distance from the center of the Earth, its weight is constant, and has no connection with its motion.