Norman wanted to bowl a strike, but to do so he needed to cause his bowling ball (mass of 5 kg) to accelerate at 15 m/s2. How much force does Norman need to exert on his bowling ball to get a strike? Show your work.
5*15=75
F = m a
F = 5 * 15
To calculate the force Norman needs to exert on his bowling ball, we use the formula:
Force = mass * acceleration
Given:
Mass of the bowling ball (m) = 5 kg
Acceleration (a) = 15 m/s²
Substitute these values into the formula:
Force = 5 kg * 15 m/s²
Now, multiply 5 kg by 15 m/s²:
Force = 75 kg · m/s² or 75 N (Newtons)
So, Norman needs to exert a force of 75 Newtons on his bowling ball to get a strike.
To calculate the force required to accelerate the bowling ball, we can use Newton's second law of motion, which states that force (F) is equal to mass (m) times acceleration (a).
In this case, the mass of the bowling ball is given as 5 kg, and the desired acceleration is 15 m/s². So we can plug these values into the formula:
F = m * a
F = 5 kg * 15 m/s²
F = 75 kg*m/s²
The unit for force is Newton (N), which is equal to kg*m/s². Therefore, Norman needs to exert a force of 75 Newtons on his bowling ball to achieve the desired acceleration and bowl a strike.