The moon's shape would change with the impact of meteor's, changing the moon's landscape
velocity dx/dt
It is the distance covered in a unit of time.
1.There must be a reference point (stationary object ) to describe the position of the given body. 2. The position of the given body must continuously change with time and with respect to the reference point.
That would be called a "constant speed".(Not 'velocity', since no information about the direction of its motion has been given.)
Remember Newton's 2nd Law of Universal Dynamics. Force is directly proportional to the change in momentum(acceleration) . So a given force applied to a mass will change its velocity. Remember velocity is speed ( a scalar quantity) in a given direction. So an object moving at constant speed , but changing its direction ( going round in a circle /ellipse) is accelerating; its velocity is changing.
because its gravitatoinal fo
The moon's shape would change with the impact of meteor's, changing the moon's landscape
The rate of change in position at a given point in time is instantaneous speed, instantaneous velocity.
The rate of change in position at a given point in time is instantaneous speed, instantaneous velocity.
The rate of change in position at a given point in time is instantaneous speed, instantaneous velocity.
An ellipse is given by the equations x^2/a^2+y^2/b^2=1 You'd have to ask the earth what it's ellipse is though.
The rate of change in position at a given point in time is instantaneous speed, instantaneous velocity.
It does not change; the directional terms are given in relation to the anatomical position, not the patient position.
velocity dx/dt
It is the distance covered in a unit of time.
A recommendation is a suggestion as to what is the best course of action. An employee may be given a recommendation to advance further into a higher job position.
1.There must be a reference point (stationary object ) to describe the position of the given body. 2. The position of the given body must continuously change with time and with respect to the reference point.