**1. The problem statement, all variables and given/known data**

Given the graph (see picture), determine:

a) magnitude of impulse (max error of +/- 25%)

b) direction of impulse

c) mass of the object that the impulse acted on.

Note that initial velocity is 3.8 m/s to the west and that final velocity is 4.8 m/s to the east.

**2. Relevant equations**

1) Define an coordinate system. West is negative. East is positive. So that means initial velocity is -3.8 m/s and final velocity is + 4.8 m/s

2) Impulse is mass * change in velocity or force * change in time. Thus, impulse is the area under a force-time graph.

**3. The attempt at a solution**

Unfortunately, the graph of force-time is non-linear. To determine impulse, then, I used two triangles and estimated the sum of the areas of these two triangles.

This gives me the impulse. The magnitude of the impulse is 0.875 N*s to the east since the change in velocity is positive (and thus to the east).

Because impulse is equal to mass * change in velocity, I can now easily solve for the mass of the object.

Attached please find a picture of my work. I would appreciate it if you guys could verify the accuracy of my method and results. Note that the blue rectangle in the picture of the graph below represents my attempt to apply a Reimann sum to find impulse ….. I think doing the Reimann sum would have been considerably more difficult and likely less accurate to boot!

http://ift.tt/OqRIjv