Vector Cross Product and Magnitude Calculation

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Homework Help Overview

The discussion revolves around calculating the vector product of two vectors, Vector A and Vector B, expressed in unit vector notation. Participants are exploring the nature of the problem, specifically whether it is a 2D or 3D vector problem, and how to compute the cross product and its magnitude.

Discussion Character

  • Exploratory, Assumption checking, Conceptual clarification

Approaches and Questions Raised

  • Participants are questioning whether the problem is 2D or 3D based on the components of the vectors and the nature of the cross product. There are attempts to clarify the calculations involved in finding the cross product and its magnitude, as well as discussions about the implications of the results provided in the textbook.

Discussion Status

The discussion is active, with participants providing insights and questioning the assumptions regarding the dimensionality of the vectors. Some guidance has been offered regarding the calculation of magnitudes and angles, but there is still uncertainty regarding the interpretation of the results.

Contextual Notes

Participants are operating under the constraints of a homework assignment, which may limit the information provided. There is confusion regarding the dimensionality of the problem and the results given in the textbook, which may not align with the participants' understanding.

elpermic
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2D or 3D vector problem??

Homework Statement


Find the vector product of Vector A cross Vector B(expressed in unit vectors) of the two vectors. What is the magnitude of the vector product?


Homework Equations


Vector A= 5.00i + 2.00j
Vector B= 3.00i - 1.00j



The Attempt at a Solution



I know how to get the dot product of the two, but how do I find the cross product??
 
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This vector problem is 2D. You don't have a k component to represent the third dimension.

The cross product can be evaluated by

U x V = |U||V| * sin(angle between U and V)

|U| this means the "magnitude of U".

Hope that helps.

Thanks
Matt
 


The answer says -17.0k and 17.0. So shouldn't this mean it's a 3D problem? My teacher never taught me this in class and gave us 2 vector problems like this.
 


No this is not a 3D problem. Where could the third dimension come from? The answers are equal and opposite in magnitude, that doesn't mean there is a third dimension.

What is your attempt at the solution? Can you find the magnitudes of the Vector A and Vector B?

Thanks
Matt
 


The magnitude of vector a is 5.38, vector b 3.16. I calculated the angle between the two to be 40.2 degrees. So I took ABsin(40.2) and got my answer is 11.0. The answer in the back says -17.0k, 17.0. I'm confused.. Is the book wrong or me?
 


Nevermind, I solved it.
 


Good then, hope I helped you out.

Thanks
Matt
 

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