The instantaneous speed of an object at its highest point when thrown straight up in the air is zero. At the highest point, the object has momentarily stopped moving upwards and is just about to start falling back down due to gravity.
The instantaneous speed of the object at its highest point is zero. At that moment, the object is at rest before it starts to fall back down due to gravity.
The instantaneous velocity at the maximum height is zero because the object momentarily stops moving before falling back down due to gravity.
Potential and kinetic energy are equal in a system at the highest point of a vertical motion, such as when an object is thrown straight up in the air.
At the highest point, the velocity of an object thrown vertically into the air is momentarily zero as it changes direction. This is the point where it transitions from going upward to downward.
If it is thrown at an angle, at the top of its path, its vertical velocity will be zero, however its horizontal velocity will be the same as its initial horizontal velocity minus whatever loss in speed as a result of air friction at that point. We won't know what that is without more information.
The instantaneous speed of the object at its highest point is zero. At that moment, the object is at rest before it starts to fall back down due to gravity.
The instantaneous velocity at the maximum height is zero because the object momentarily stops moving before falling back down due to gravity.
Yes. A typical example is an object thrown directly up - this will happen when it is at its highest point, just before it falls back down again.
Yes. An example of this would be a ball thrown straight up; at the very peak of its travel, it's not moving either up or down and therefore has an instantaneous velocity of zero.
Potential and kinetic energy are equal in a system at the highest point of a vertical motion, such as when an object is thrown straight up in the air.
At the highest point, the velocity of an object thrown vertically into the air is momentarily zero as it changes direction. This is the point where it transitions from going upward to downward.
No, the acceleration at the highest point is never 0.
It depends on the height of the building and also on the direction the object is thrown in (up, down etc.).
If it is thrown at an angle, at the top of its path, its vertical velocity will be zero, however its horizontal velocity will be the same as its initial horizontal velocity minus whatever loss in speed as a result of air friction at that point. We won't know what that is without more information.
In the case of an object thrown, batted, teed off, or dropped, its acceleration at the instant of its maximum velocity is 9.8 meters per second2 downward.
When an object is thrown in space, it will continue moving in a straight line at a constant speed unless acted upon by another force. This is due to the absence of air resistance and gravity in space.
At the highest point, the kinetic energy is least.