Eclipse Ball was invented around 1980 but was not introduced to the physical education until 1994.
Eclipse Ball was invented in the United States in the 1930s. It was created as a variation of volleyball and tennis, combining elements of both sports to create a unique game.
The higher the pressure inside the ball and the more molecules there are to push against the ball interior, the stiffer the ball becomes. A ball colliding with a rigid surface deforms, increasing the air pressure around the deformed region. This additional pressure spreads through the ball interior, causing the ball to bounce off the ground.
The more pressure in the ball the firmer it will be to kick. A low pressure ball will concave around your foot when you kick it but a higher pressure ball will give less. The more pressure in the ball the more air pressure your moving when you kick it. Think of it like a bow; the father back it is drawn the farther the arrow will fly. The more pressure in the ball the more solid it is and therefore gives more energy for energy input.
The ball that has the higher pressure.
The Black Ball, it's worth 7 points.
Donald Benson of Grant Michigan check www.eclipseball.com
It depends on the kick ball. There should be a number printed or molded on the ball or package somewhere that states the pressure range for that particular ball.
The pink ball
Air doesn't effect the bounce of the ball much higher air pressure the harder the ball lower pressure softer the ball temp effects it too colder soft warmer harder
The brown ball is the 4 ball and worth 4 points.
Air pressure affects the bounce of a ball by influencing the elasticity and resilience of the ball. When the air pressure inside the ball is higher, the ball becomes more rigid and bounces higher. Conversely, lower air pressure results in a softer ball that bounces lower. This is because the air pressure inside the ball determines the amount of force pushing against the ball's surface, affecting its ability to deform and rebound during a bounce.