Momentum Theory question Gr.12

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The discussion centers on a physics problem involving momentum conservation during a skateboard maneuver where a student picks up a backpack. The initial momentum of the student and skateboard is calculated, and then the combined momentum after the backpack is picked up is analyzed. The principle of momentum conservation states that the total momentum before the event equals the total momentum after, leading to the equation used for calculations. The student’s final velocity after picking up the backpack is determined to be approximately 1.5 m/s east. The discussion also touches on how to handle momentum in cases involving angles by breaking down velocity into components.
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1. A student on a skateboard, with a combined mass of 78.2 kg, is moving east at 1.60 m/s. As he goes by, the student skilfully scoops his 6.4-kg backpack from the bench where he had left it. What will be the velocity of the student immediately after the pickup?






Me solving
momentum of student = momentum of student+bag
MV=MV
78.2kg(1.60 m/s E)= 84.6kg( Velocity)

125.12=84.6(Velocity)
Velocity=1.478959811
Velocity=1.5 m/s (E)


QUESTION- What I don't get is the theory behind this. How does the momentum of the student equal the momentum of student and bag? Please explain how this works.
 

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elmosworld403 said:
1. A student on a skateboard, with a combined mass of 78.2 kg, is moving east at 1.60 m/s. As he goes by, the student skilfully scoops his 6.4-kg backpack from the bench where he had left it. What will be the velocity of the student immediately after the pickup?
Me solving
momentum of student = momentum of student+bag
MV=MV
78.2kg(1.60 m/s E)= 84.6kg( Velocity)

125.12=84.6(Velocity)
Velocity=1.478959811
Velocity=1.5 m/s (E)QUESTION- What I don't get is the theory behind this. How does the momentum of the student equal the momentum of student and bag? Please explain how this works.

(ms×vs)+(mb×vb) = (ms+mb)v^2

Where:
ms = Mass of student
vs = Velocity of student
mb = Mass of bag
vb = Velocity of bag

In writing;
The sum of the initial momentum (p=mv) on both objects is equal to the final momentum, where the masses are combined.

If you have objects moving on angles, you can find the (x,y) components of the velocity vectors to determine what occurs. x=[(v)cos(θ)], y=[(v)sin(θ)]
 
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