The impulse-momentum equation states the relationship between a force applied to an object of mass and the resulting change in velocity of the object. The equation is , where . Suppose that the force of a golf club on a ball is approximately thousand pounds for between 0 and seconds. Using slugs for the mass of a golf ball, estimate the change in velocity (in ft/s). Round to 2 decimal places.
A) ft/s
B) ft/s
C) ft/s
D) ft/s

Question

The impulse-momentum equation states the relationship between a force  applied to an object of mass  and the resulting change in velocity  of the object. The equation is  , where  . Suppose that the force of a golf club on a ball is approximately  thousand pounds for  between 0 and  seconds. Using  slugs for the mass of a golf ball, estimate the change in velocity  (in ft/s). Round to 2 decimal places.
A) ft/s 
B) ft/s 
C) ft/s 
D) ft/s

Quizplus · Accepted Answer

The Answer of The impulse-momentum equation states the relationship between a force  applied to an object of mass  and the resulting change in velocity  of the object. The equation is  , where  . Suppose that the force of a golf club on a ball is approximately  thousand pounds for  between 0 and  seconds. Using  slugs for the mass of a golf ball, estimate the change in velocity  (in ft/s). Round to 2 decimal places.
A) ft/s 
B) ft/s 
C) ft/s 
D) ft/s

The Impulse-Momentum Equation States the Relationship Between a Force