The object comes back down after being thrown up because of gravity, a force that attracts things towards each other. When an object is thrown up, the force of gravity eventually overcomes the initial momentum and pulls the object back towards the center of the Earth.
an object thrown into the air will slow down as it ascends higher into the air until it stops ascending and the speed of the object increases as it falls until it reaches its terminal velocity in air. As an object passes through air, it encounters air resistance which slows down an object moving freely through air. An object will be moving at a slower speed when it hits the ground than it did when it was thrown into the air due to this air resistance.
Yes, gravity can slow down an object if it is acting in the opposite direction of the object's motion. For example, if an object is thrown upwards, gravity will work against the object, slowing it down until it eventually stops and falls back to the ground.
When an object is thrown up, the force of gravity acts on it in the opposite direction to its motion. This force causes the object to slow down and eventually come to a stop before falling back to the ground.
The speed decreases when an object is thrown vertically up because of the force of gravity acting against the object's upward motion. As the object goes higher, the force of gravity slows it down until the object reaches its maximum height, where its speed momentarily becomes zero before accelerating back downward.
Yes, an object thrown straight up will stop temporarily at the top of its trajectory before coming back down due to gravity. This is the point where its vertical velocity becomes zero before changing direction.
an object thrown into the air will slow down as it ascends higher into the air until it stops ascending and the speed of the object increases as it falls until it reaches its terminal velocity in air. As an object passes through air, it encounters air resistance which slows down an object moving freely through air. An object will be moving at a slower speed when it hits the ground than it did when it was thrown into the air due to this air resistance.
It depends on the height of the building and also on the direction the object is thrown in (up, down etc.).
Yes, gravity can slow down an object if it is acting in the opposite direction of the object's motion. For example, if an object is thrown upwards, gravity will work against the object, slowing it down until it eventually stops and falls back to the ground.
When an object is thrown up, the force of gravity acts on it in the opposite direction to its motion. This force causes the object to slow down and eventually come to a stop before falling back to the ground.
A ball thrown down. The thrown ball will have a greater initial velocity and since they experience the same force of gravity, it will always be faster (until they both reach terminal velocity).
The speed decreases when an object is thrown vertically up because of the force of gravity acting against the object's upward motion. As the object goes higher, the force of gravity slows it down until the object reaches its maximum height, where its speed momentarily becomes zero before accelerating back downward.
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Yes, an object thrown straight up will stop temporarily at the top of its trajectory before coming back down due to gravity. This is the point where its vertical velocity becomes zero before changing direction.
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 gravity acting on a rising object and that on a falling object are the same when these objects are at the same height. What is different is that a rising object is decelerating by the force of gravity and the falling object is accelerating.
When an object is thrown in the air, it follows a curved path known as a projectile motion. Initially, the object rises until its velocity decreases to zero, then it falls back down due to gravity. The object's motion is influenced by factors like its initial velocity, angle of launch, and air resistance.
The best way to analyze an object thrown into the air is to use projectile motion equations to calculate its initial velocity, angle of projection, and other relevant parameters. By breaking down the motion into horizontal and vertical components, you can determine its trajectory, maximum height, range, and time of flight accurately. Additionally, considering air resistance if necessary can provide a more realistic analysis of the object's motion.