The formula to calculate the Bowling Ball Force is:
\[ BBF = \frac{BBM \cdot BBV^2}{CD} \]
Where:
Let's say the bowling ball mass (BBM) is 7 kg, the velocity (BBV) is 10 m/s, and the distance of impact (CD) is 0.5 m. The bowling ball force would be calculated as follows:
\[ BBF = \frac{7 \cdot 10^2}{0.5} = 1400 \text{ N} \]
So, the bowling ball force is 1400 N.
A bowling ball force is the total force exerted on the pins when the bowling ball strikes the pins. It is calculated by multiplying the ball mass by the ball velocity squared, then dividing by the distance of impact between the ball and pins.
Definition: This calculation helps determine the speed of a bowling ball.
Formula: \( \text{Speed} = \frac{\text{Distance}}{\text{Time}} \)
Example: \( \text{Speed} = \frac{60}{2.5} \)
Definition: The strike rate in bowling measures the average number of balls bowled per wicket taken.
Formula: \( \text{Strike Rate} = \frac{\text{Balls Bowled}}{\text{Wickets Taken}} \)
Example: \( \text{Strike Rate} = \frac{300}{15} \)
Definition: This calculation helps determine the force required to move an object using a ball screw.
Formula: \( F = \frac{T}{P} \)
Example: \( F = \frac{50}{0.005} \)