-- The only horizontal force on a thrown ball is the force of air resistance, so the
horizontal acceleration is very small, and the horizontal speed stays almost
constant.
-- The vertical force on a thrown ball is the force of gravity, so the ball accelerates
straight down at the acceleration of gravity.
-- The result of unequal horizontal and vertical components of acceleration is a
curved path.
When a ball is thrown, the force of gravity affects its trajectory, causing it to follow a curved path instead of a straight line. Additionally, air resistance and spin on the ball can also contribute to the curve as it travels through the air. This combination of factors leads to the typical arc path that we observe when a ball is thrown.
Throwing a curve ball involves kinetic energy. As the pitcher applies force to the ball by moving their arm, the ball gains kinetic energy as it moves through the air.
Throwing a curve ball involves both kinetic and potential energy. The kinetic energy comes from the pitcher's arm movement and the ball's rotation, while the potential energy is stored in the ball's position in relation to gravity and air resistance. The combination of these energies helps to create the curve ball's unique trajectory.
A ball thrown straight will curve downward due to the pull of gravity acting on it. As the ball moves forward, gravity exerts a downward force on it, causing it to follow a curved path towards the ground. This downward curve is influenced by factors such as air resistance and the initial velocity and angle at which the ball was thrown.
The ball will continue moving in a straight line tangent to the curve before eventually hitting the ground.
If the bowling lane offers no friction, the bowling ball will continue in a straight line from when it was released, with no rotation or curve. It will not slow down or change direction until it hits the pins or another obstacle.
The straight ball.
Throwing a curve ball involves kinetic energy. As the pitcher applies force to the ball by moving their arm, the ball gains kinetic energy as it moves through the air.
A fast ball is when the pitchers throws the ball straight at the strike zone, it doesn't curve (curve ball) or lower (slider), it goes straight ahead.
which fingers on a pitcher's throwing hand controls a curve ball and a slider
Throwing a curve ball involves both kinetic and potential energy. The kinetic energy comes from the pitcher's arm movement and the ball's rotation, while the potential energy is stored in the ball's position in relation to gravity and air resistance. The combination of these energies helps to create the curve ball's unique trajectory.
A fundamental movement skill would be throwing a ball, but a specialized movement skill would be considered throwing a baseball as a curve ball.
Middle Finger
The answer is: 1. Straight ball 2. Curve ball 3. Hook ball.
A ball thrown straight will curve downward due to the pull of gravity acting on it. As the ball moves forward, gravity exerts a downward force on it, causing it to follow a curved path towards the ground. This downward curve is influenced by factors such as air resistance and the initial velocity and angle at which the ball was thrown.
The momentum of throwing the ball downhill increases the speed of the ball and can make curve balls and sliders have more movement in the pitch.
Bad form. A skilfully thrown bowling ball travels on a curve.
The first 4 strikes in a row have been given the name 'hambone' (unofficially of course!)