This statement means that when the ball goes up, it gradually slows down its upward motion. The deceleration, or rate of slowing down, is 9.8 meters per second squared (m/s²), which is equivalent to the acceleration due to gravity on Earth. Eventually, the ball comes to a stop momentarily at the highest point of its path and changes its direction, starting to move downward.
This statement means that when the ball goes up, it gradually slows down its upward motion. The deceleration, or rate of slowing down, is 9.8 meters per second squared (m/s²), which is equivalent to the acceleration due to gravity on Earth. Eventually, the ball comes to a stop momentarily at the highest point of its path and changes its direction, starting to move downward.
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Answer:
This statement means that when the ball goes up, it gradually slows down its upward motion. The deceleration, or rate of slowing down, is 9.8 meters per second squared (m/s²), which is equivalent to the acceleration due to gravity on Earth. Eventually, the ball comes to a stop momentarily at the highest point of its path and changes its direction, starting to move downward.
Answer:
This statement means that when the ball goes up, it gradually slows down its upward motion. The deceleration, or rate of slowing down, is 9.8 meters per second squared (m/s²), which is equivalent to the acceleration due to gravity on Earth. Eventually, the ball comes to a stop momentarily at the highest point of its path and changes its direction, starting to move downward.