The typical freekick achieves speeds between 80 and 100km\h. An Adidas Jabulani weighs 440 grams.
less than grass. Ball slides much smoother on turf.
by applying force to the ball the ball will apply an equal and opposite force on the foot. when you kick the ball, the ball will move forward and your foot will move backward. this force is unnoticeable to the common person simply because we are not looking for it
no,because you need your movement to make the ball move and a soccer ball cannot move because it is a kinetic energy it needs force to move.
the soccer ball will move because a force has acted on it.
no,because you need your movement to make the ball move and a soccer ball cannot move because it is a kinetic energy it needs force to move.
the table tennis ball
The ping pong ball is the least massive (lowest in weight) of all the objects, so it takes less force to move it compared to the other objects.
Move your leg faster
This would not be possible because the moon has less gravity than earth does and it would just float up.
1st law:Newton's first law of Inertia can be seen in many ways. The most common are:1) The force of gravity pulling down on the player2) The (equal and opposite) force of the ground pushing back on the player3) Gravity pushing down on the soccer ball4) The ground pushing back up on the soccer ballAfter the ball is in the air, inertia is acting upon it too:1) Ball being pulled back down toward Earth from gravity2) Ball slowing down in the air from the Friction, or air resistance2nd law:As a player runs and dribble the ball he pushes and run with varying momentum (velocity) therefore, in a specific time frame. He experiences a rate of change of momentum. thus give rise to a resultant force. Evident if he runs and runs straight.3rd law:Newton's thrid law of motion is played out in soccer when the ball has been kicked. We do not really notice this, but the ball is actually pushing back on the foot after it has been kicked, but as we are much bigger than the soccer ball it will go flying. The force of the ball against our foot is equal and oppositeto the force of the player.
The force of gravity makes the ball move downward. To move it upward, you need to supply enough force to compensate for this (to stop the downward motion) plus a little extra (to cause the ball to move upward).
To move a ball, it must be acted on by an outside force. Some mechanical energy will have to be applied to it. There are a number of different forces and a number of different balls. We use a club on a golf ball. Baseballs are hit with a bat. A tennis ball is hit with a raquet. A soccer ball is struck with a body part. In all cases, the ball is struck and is accelerated by an outside force. This stuff goes back to Newton. Here's the condensed version. If it's at rest, it wants to stay that way. If it's in motion, it wants to stay that way. And either will be the case unless an outside force (sometimes called an unbalanced force) acts to change things. That's Newton's first law or the law of inertia. Apply a force to a ball and it will move.
When a ball is being struck by a bat it certainly exerts a reaction force on the bat. But the bat does not move backward because the reaction is not enough to move the bat as it is much heavier than the ball. The reaction force is felt by the person who strikes the ball with the bat through his arm. If the ball is heavier than the ball the bat will surely get the reaction force and move back.