When a football is kicked upward, the main energy transfer occurring is from the kicker's leg muscles to the football. This transfer involves potential energy being converted to kinetic energy as the football gains height due to the force of the kick. Gravitational potential energy is also a factor as the football gains altitude.
Yes, when a football is kicked, most of the particles inside the football will move in the direction of the kick due to the force applied. However, there will also be some particles that move in other directions due to the irregular shape and the internal pressure of the football.
When a football is kicked into the air, the kicker transfers kinetic energy from their leg to the ball. As the ball moves upward, some of the kinetic energy is converted into potential energy as the ball gains height. When the ball reaches its highest point, all of its energy is potential energy, and as it falls back down, the potential energy is converted back into kinetic energy.
when a soccer ball is kicked, there is a transfer of energy from your leg to the ball. since the ball is elastic, it coverts the kinetic energy from your leg into potential elastic energy in the for of deformation of the ball. the ball then snaps back to its elastic equilibrium converting the energy back to kinetic energy. also, your momentum is being transferred to the ball, giving it a direction since momentum is a vector. due to these conversions of energy and momentum, the ball is sent off your foot in the direction you kicked it with the same speed you kicked it with.
This would not be possible because the moon has less gravity than earth does and it would just float up.
The acceleration in the vertical direction is due to gravity and is approximately 9.8 m/s^2 downward. The vertical acceleration remains constant throughout the ball's flight trajectory.
A kicked football has, of course, kinetic energy. As it moves up, its vertical movement provides potential energy. Until it goes up to its maximum displacement from the ground, its potential energy is at 100% while the kinetic energy doesn't exist. As the football moves back down, its potential energy is decreasing, but kinetic energy is increasing because there's movement in the football
Luke kicked the football.
Yes, when a football is kicked, most of the particles inside the football will move in the direction of the kick due to the force applied. However, there will also be some particles that move in other directions due to the irregular shape and the internal pressure of the football.
When a football is kicked into the air, the kicker transfers kinetic energy from their leg to the ball. As the ball moves upward, some of the kinetic energy is converted into potential energy as the ball gains height. When the ball reaches its highest point, all of its energy is potential energy, and as it falls back down, the potential energy is converted back into kinetic energy.
so hard it is luke kiked the football
A soccer ball is mostly kicked or sometimes football or flag football
when a soccer ball is kicked, there is a transfer of energy from your leg to the ball. since the ball is elastic, it coverts the kinetic energy from your leg into potential elastic energy in the for of deformation of the ball. the ball then snaps back to its elastic equilibrium converting the energy back to kinetic energy. also, your momentum is being transferred to the ball, giving it a direction since momentum is a vector. due to these conversions of energy and momentum, the ball is sent off your foot in the direction you kicked it with the same speed you kicked it with.
no
no
No?
Goalposts
Footballs are not kicked from a perfect 90 degree angle during a football game on either the kickoff or for a field goal or extra-point. Whether from a tee or being held, a football is leaned back slightly off 90 degrees toward the direction of the kicker. This placement allows greater distance and accuracy.