Relative Velocity: Riverboat and Canoe

AI Thread Summary
To find the velocity of the canoe relative to the river, the correct approach involves breaking down the velocities into their x and y components. The canoe's velocity of 0.420 m/s southeast can be resolved into components using trigonometric functions, while the river's velocity of 0.550 m/s east is straightforward. The x-component of the canoe's velocity is 0.420 * cos(45°), and the y-component is 0.420 * sin(45°). After calculating these components, the river's velocity is subtracted from the canoe's x-component to find the relative velocity. This method ensures accurate vector addition and subtraction, leading to the correct magnitude of the canoe's velocity relative to the river.
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Homework Statement


A canoe has a velocity of 0.420 m/s southeast relative to the earth. The canoe is on a river that is flowing at 0.550 m/s east relative to the earth.

This can't be seen in the problem statement, but the angle between the two vectors is 45 degrees. As implied by the question, the southeastern one is off at a tilt; while, the river (the eastern one) is at the origin pointing outward straight, horizontally at 0 degrees.

Find the magnitude of the velocity v⃗ c/r of the canoe relative to the river.

Homework Equations


Vsub(B|A) = Vsub(BC) - Vsub(AC)

The Attempt at a Solution


So I thought: Find the magnitude of the tilted vector and then subtract 0.55 from it. This has turned out to be wrong. I did:

Square Root(0.42*Sin(Pi/4)^2 + 0.42Cos(Pi/4)^2) = |Canoe|
|Canoe| - 0.55 = 0.612
Wrong answer
 
Physics news on Phys.org
To add or subtract vectors, it is necessary to compute the x and y components of each vector.

The x component of the sum is the sum of the x components. etc.
 

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