How Fast Was the Car Initially Traveling? | Physics Question

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The discussion revolves around calculating the initial speed of a car that collided with a truck, resulting in a combined speed of 28 m/s at an angle of 41° north of east. Participants debate the initial speed, with one suggesting 19 m/s and another arguing for 37 m/s, while a misunderstanding about doubling the final speed is clarified. The key to solving the problem lies in breaking down the final velocity into its northward and eastward components using vector analysis. By applying this method, one can determine the correct initial speed of the car. The conversation emphasizes the importance of understanding vector components in collision physics.
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A car heading north collides at an intersection with a truck heading east. If they lock together and travel at 28 m/s at 41° north of east just after the collision, how fast was the car initially traveling? Assume that the two vehicles have the same mass.

A) 37 m/s
B) 28 m/s
C) 74 m/s
D) 19 m/s

My friend and I are having a disagreement. I got 19 m/s and my friend got 37m/s. He is saying that the total speed would be 28m/sx2=56 m/s.

Is there any way that someone can solve the question and see what they got? Thanks.
 
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Well, it depends on which car you're talking about. I assume the car heading north.

Think about it this way. The final velocity of vector of 28 m/s has an eastward component and a northward component. Try to find just the northward component of this vector (draw it as a right triangle). I think this way you can prove your friend wrong :).
 

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