Why does the speed of an object thrown straight up into the air begin to decrease after it is thrown?(1 point)%0D%0AResponses%0D%0A%0D%0AThe force of gravity makes it accelerate in a downward direction.%0D%0AThe force of gravity makes it accelerate in a downward direction.%0D%0A%0D%0AThe object is not accelerating.%0D%0AThe object is not accelerating.%0D%0A%0D%0ANo more force acts on it after it is thrown.%0D%0ANo more force acts on it after it is thrown.%0D%0A%0D%0AThe thrown object eventually runs out of force.
The correct response is: The force of gravity makes it accelerate in a downward direction.
The correct response is:
The force of gravity makes it accelerate in a downward direction.
The correct response is: The force of gravity makes it accelerate in a downward direction.
Explanation:
When an object is thrown straight up into the air, it initially moves against gravity's pull. However, as soon as the object reaches its highest point, it begins to slow down. This happens because the force of gravity is constantly acting on the object, pulling it downwards. Gravity is an attractive force between two objects with mass, and on Earth, it pulls everything towards the center of the planet. As the object moves higher, the force of gravity gradually slows it down until it eventually comes to a stop momentarily. After reaching its highest point, the object starts falling back to the ground under the influence of gravity, and its speed increases in the downward direction. Thus, the speed of an object thrown straight up into the air decreases because the force of gravity makes it accelerate in a downward direction.