The acceleration of a 5.00 kg object (a box) is describedbelow.

From t=0 to 10.00 seconds, the acceleration is time-dependentand is given by the formula: a=(0.200 m/s^3) t

From time t= 10.00 up to t=15.00 seconds, the acceleration of abox is constant and is given by the following formula: a=2.00m/s^2

From t=15.00 up to t=25.00 seconds, the acceleration is given bya=(-0.200 m/s^3)t+5.00 m/s^2

Produce a single graph (of Force vs. time) in Excel thatillustrates this. Your data should start at t=0 and go up tot=25.00 in increments of 1.00 seconds.

After you have produced the graph, calculate the impulse (J)from the graph. Note that the impulse is the area under a force v.time graph curve.

Impulse= _______ kg m/s

The acceleration of a 5.00 kg object (a box) is describedbelow.

From t=0 to 10.00 seconds, the acceleration is time-dependentand is given by the formula: a=(0.200 m/s^3) t

From time t= 10.00 up to t=15.00 seconds, the acceleration of abox is constant and is given by the following formula: a=2.00m/s^2

From t=15.00 up to t=25.00 seconds, the acceleration is given bya=(-0.200 m/s^3)t+5.00 m/s^2

Produce a single graph (of Force vs. time) in Excel thatillustrates this. Your data should start at t=0 and go up tot=25.00 in increments of 1.00 seconds.

After you have produced the graph, calculate the impulse (J)from the graph. Note that the impulse is the area under a force v.time graph curve.

Impulse= _______ kg m/s