Relative Velocity: Riverboat and Canoe

In summary, the problem involves finding the magnitude of the velocity of a canoe relative to a river, given the canoe's velocity of 0.420 m/s southeast and the river's velocity of 0.550 m/s east. The angle between the two vectors is 45 degrees. The correct approach is to find the x and y components of each vector and then add or subtract them to find the resultant velocity.
  • #1
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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
 
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  • #2
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.
 

Related to Relative Velocity: Riverboat and Canoe

1. What is relative velocity?

Relative velocity is the measurement of an object's speed and direction in relation to another object.

2. How does relative velocity apply to a riverboat and canoe?

In the context of a riverboat and canoe, relative velocity refers to the speed and direction of each vessel in relation to the other. This is important in determining how the two vessels will interact and move in the water.

3. What factors affect the relative velocity of a riverboat and canoe?

The relative velocity of a riverboat and canoe can be affected by various factors such as the speed and direction of the current, the speed and direction of the wind, and the maneuvering abilities of each vessel.

4. How is relative velocity calculated?

To calculate relative velocity, you must first determine the individual velocities of each object in the reference frame of the other object. Then, you can use vector addition to find the relative velocity by adding the two individual velocities together.

5. How can understanding relative velocity be useful in real-life situations?

Understanding relative velocity can be useful in various real-life situations, such as navigating through a river or waterway, predicting the movement of objects in a current, and determining the impact of wind on watercraft. It can also be applied in other fields such as aviation and space travel.

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