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Why do falling objects move faster than objects going upward?
Falling objects are accelerated by gravity, while objects moving upward are being decelerated by gravity. Gravity pulls objects downward, increasing their speed, while it opposes the motion of objects moving upward, decreasing their speed.
Why do objects fall to the ground when thrown upward?
Objects fall back to the ground when thrown upward due to the force of gravity acting upon them. Gravity is a force that pulls objects towards the center of the Earth, causing them to accelerate downwards. When an object is thrown up, it loses its upward velocity and gravity then pulls it back towards the ground.
Why do objects on earth do not float?
Objects on Earth do not float because of gravity. The force of gravity pulls objects toward the center of the Earth, causing them to sink. Objects will only float if the force of buoyancy pushing them upward is greater than the force of gravity pulling them downward.
What is the force that is working against the buoyant force?
The force working against the buoyant force is gravity. Gravity pulls objects downward, while the buoyant force pushes objects upward when they are immersed in a fluid.
Why does a basketball move upward and then downward?
When a basketball is thrown upward, it is acted upon by gravity, which pulls it back down towards the ground. As it moves upward, its velocity decreases until it reaches its peak height and momentarily stops, then gravity causes it to accelerate back downward due to the force of gravity.
Why do falling objects move faster than objects going upward?
Falling objects are accelerated by gravity, while objects moving upward are being decelerated by gravity. Gravity pulls objects downward, increasing their speed, while it opposes the motion of objects moving upward, decreasing their speed.
Why do objects fall to the ground when thrown upward?
Objects fall back to the ground when thrown upward due to the force of gravity acting upon them. Gravity is a force that pulls objects towards the center of the Earth, causing them to accelerate downwards. When an object is thrown up, it loses its upward velocity and gravity then pulls it back towards the ground.
How can kinetic energy convert to potential energy?
By raising objects against gravity (upward)
Why do objects on earth do not float?
Objects on Earth do not float because of gravity. The force of gravity pulls objects toward the center of the Earth, causing them to sink. Objects will only float if the force of buoyancy pushing them upward is greater than the force of gravity pulling them downward.
How can tornadoes pick stuff up?
Air in a tornado moves upward pretty rapidly. This upward moving wind often carries objects with it.
What is the force that is working against the buoyant force?
The force working against the buoyant force is gravity. Gravity pulls objects downward, while the buoyant force pushes objects upward when they are immersed in a fluid.
Why does a basketball move upward and then downward?
When a basketball is thrown upward, it is acted upon by gravity, which pulls it back down towards the ground. As it moves upward, its velocity decreases until it reaches its peak height and momentarily stops, then gravity causes it to accelerate back downward due to the force of gravity.
What makes objects moves?
they move by gravity or many other things.
Why do things thrown upward fall back to the ground?
Things thrown upward fall back to the ground due to the force of gravity, which pulls objects towards the Earth's center. As the object rises, its speed decreases until the pull of gravity overcomes the upward force and causes it to fall back down.
What is the difference between gravity and buoyancy?
Gravity is the force by which a planet or other body draws objects toward its center. Buoyancy is the upward force exerted by a fluid that opposes the weight of an immersed object. Gravity acts on all objects, while buoyancy specifically relates to objects submerged in a fluid.
What do a falling basketball a moving car and a trophy on a shelf all have in common?
They are all objects influenced by gravity. The basketball falls due to gravity, the car moves because of the engine providing a force against the friction and air resistance, and the trophy rests on the shelf due to gravity counteracted by the upward force from the shelf.
What is the velocity of a ball thrown upward at 16 ft-sec?
The velocity of a ball thrown upward at 16 ft/sec would be 16 ft/sec when it leaves the hand, but it will decrease due to gravity as it moves upward.
