Wiki User
∙ 11y agoChemical energy stored in the body is converted to mechanical (kinetic) energy as the pump is operated (this assumes a manual pump). Next, kinetic energy coupled into the pump is converted to potential energy in the form of compressed air and a stressed ball.
Wiki User
∙ 11y agoWhen inflating a ball with an air pump, mechanical energy from pumping the handle is transformed into potential energy stored in the compressed air inside the ball. Additionally, some of this mechanical energy is also transformed into thermal energy due to the friction between the moving parts of the pump.
When you toss a ball upward, your body applies kinetic energy to the ball, giving it potential energy as it rises. As the ball falls back down, its potential energy is converted back into kinetic energy, leading to a decrease in potential energy and an increase in kinetic energy until it reaches the ground.
When dribbling a basketball, the kinetic energy of the player's hand is transferred to the basketball when it is pushed downward. This kinetic energy then becomes gravitational potential energy as the ball reaches its highest point before falling back towards the ground. As the ball hits the ground, some of this kinetic energy is transferred back into the ball to keep it moving.
The potential energy of the waiter's muscular system is converted into electrical energy when he flips the switch to turn on the chandelier. The electrical energy is then transformed into light and heat energy as the chandelier brightens the ballroom.
When a man bats a ball, the chemical energy in his muscles is converted into kinetic energy as he swings the bat. When the bat makes contact with the ball, some of the kinetic energy is transferred to the ball, causing it to move. The sound produced as the ball is hit also represents a transformation of energy from kinetic energy to sound energy.
When you toss a ball into the air, your muscles convert chemical energy into kinetic energy to move the ball. As the ball moves upward, its kinetic energy decreases and potential energy increases due to gravity. When the ball reaches its highest point, it has maximum potential energy and zero kinetic energy.
When you toss a ball upward, your body applies kinetic energy to the ball, giving it potential energy as it rises. As the ball falls back down, its potential energy is converted back into kinetic energy, leading to a decrease in potential energy and an increase in kinetic energy until it reaches the ground.
When dribbling a basketball, the kinetic energy of the player's hand is transferred to the basketball when it is pushed downward. This kinetic energy then becomes gravitational potential energy as the ball reaches its highest point before falling back towards the ground. As the ball hits the ground, some of this kinetic energy is transferred back into the ball to keep it moving.
The potential energy of the waiter's muscular system is converted into electrical energy when he flips the switch to turn on the chandelier. The electrical energy is then transformed into light and heat energy as the chandelier brightens the ballroom.
When a man bats a ball, the chemical energy in his muscles is converted into kinetic energy as he swings the bat. When the bat makes contact with the ball, some of the kinetic energy is transferred to the ball, causing it to move. The sound produced as the ball is hit also represents a transformation of energy from kinetic energy to sound energy.
When you toss a ball into the air, your muscles convert chemical energy into kinetic energy to move the ball. As the ball moves upward, its kinetic energy decreases and potential energy increases due to gravity. When the ball reaches its highest point, it has maximum potential energy and zero kinetic energy.
The three transformations of energy are: 1) Potential energy being converted into kinetic energy, such as a ball rolling down a hill; 2) Chemical energy being converted into thermal energy, like in a burning candle; and 3) Electrical energy being converted into light energy, as seen with a light bulb.
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We lost the soccer game again.The soccer ball needs inflating.
When a ball is dropped and bounces, potential energy is converted into kinetic energy as it falls. Upon impact with the ground, some of the kinetic energy is converted into elastic potential energy as the ball compresses. This elastic potential energy is then converted back into kinetic energy as the ball bounces back up.
The inside of the ball becomes filled with the air you pump in, thus inflating the ball and turning it from a flat ball to a round one.
the second one because the little friction turns to thermal energy while the first one... no energy transformations are occuring. except potential energy
When the ball hits the ground, kinetic energy is turned into potential energy and stored momentarily as the ball compresses. As the ball rebounds, the potential energy is converted back to kinetic energy. Some energy is also lost in the form of heat and air waves (sound). This continues with each bounce and due to the loss of energy, the ball gradually stops bouncing.