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This is called the law of astronomic diversion. Gaining energy from falling: half of the energy is diverted and half is potentionally gained.
Yet the astronomical law is that falling to a gravitational centrum: half of the gained energy is given to the surroundings ( in form of heat or other) and half of it is gained as potential mechanical Galileian/Newtonian energy.
So:
a=v^2/r
is the changement to velocity = versnelling per radius
If a= gM/r then object resides.
The free area for energy is from half escape velocity to a full escape velocity for molecules. Hidrogen escapes (while escape velocity earth= 11 km / sec)
What else can I help you with?
What is the relationship between velocity, omega, and radius in circular motion?
In circular motion, velocity is directly proportional to the radius and angular velocity (omega). This means that as the radius or angular velocity increases, the velocity of the object in circular motion also increases.
Which physical quantity changes continuously during uniform circular motion?
The direction of velocity changes continuously during uniform circular motion. The magnitude of velocity remains constant, but its direction is constantly changing as the object moves around the circle.
Name the physical quantity which remains changes during circular motion?
The speed of an object in circular motion remains constant while the direction of the velocity changes continuously.
How circular velocity is constant in circular motion?
Velocity constantly changes as so does the direction around a circle...
Can uniform velocity appear in circular motion?
No.. this is impossible. Velocity must have a constant direction and speed to remain constant, it may have a constant speed, but the direction in a circle constantly changes. If it suddenly were to have constant direction, then the motion would go off on a tangent.. making it linear motion, not circular. In circular motion, velocity constantly changes. Always.
Why is an object traveling in a circular motion?
acceleration is change in velocity.. and velocity constantly changes in circular motion, as the direction constantly changes. This constant change in velocity causes the object to accelerate.
Quantity that remains constant during uniform circular motion?
-- tangential speed -- angular velocity -- kinetic energy -- magnitude of momentum -- radius of the circle -- centripetal acceleration
What is the relationship between centripetal velocity and the circular motion of an object?
Centripetal velocity is the velocity of an object moving in a circular path. It is always directed towards the center of the circle. In circular motion, the centripetal velocity is necessary to keep the object moving in a curved path instead of a straight line.
What is the formula for calculating the angular velocity of an object in circular motion, given its linear velocity and radius of rotation (mv/r)?
The formula for calculating the angular velocity of an object in circular motion is angular velocity () linear velocity (v) / radius of rotation (r).
What is the relationship between centripetal acceleration and angular velocity in circular motion?
In circular motion, centripetal acceleration is directly proportional to angular velocity. This means that as the angular velocity increases, the centripetal acceleration also increases.
Is uniform circular motion is accelerated motion?
if an object moves along a circular path, the only change in its velocity is due to the change in the direction of the motion. The motion of the object moving along the circular path is, which is a uniform circular motion, is therefore an accelerated motion:):):):/
What is the relationship between tangential velocity and circular motion?
In circular motion, tangential velocity is the speed at which an object moves along the circumference of the circle. It is perpendicular to the radius of the circle at any given point. The relationship between tangential velocity and circular motion is that the tangential velocity determines how fast an object is moving around the circle, while the radius of the circle affects the magnitude of the tangential velocity.
