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22 March, 15:11

Consider the two vectors m~ = (a,

b. = aˆı+bˆ and n~ = (c,

d. = cˆı + dˆ, where a = 4, b = 4, c = 2, and d = - 2. a and c represent the x-displacement and b and d represent the ydisplacement in a cartesian xy coordinate system. what is the magnitude of the vector product m~ * m~?

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  1. 22 March, 19:01
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    Step-by-step explanation:

    We are given the following vectors:

    m = (a, b) = ai + bj

    n = (c, d) = ci + dj

    Values of a, b, c and d are given to be: a = 4, b = 4, c = 2, and d = - 2

    So, the vectors we have will be:

    m = (4, 4) = 4i + 4j

    n = (2, - 2) = 2i - 2j

    We need to find the magnitude of vector product m x m.

    Remember that the vector (cross) product of a vector with itself is always 0. For any two vectors A and B, the magnitude of their vector (cross) product is defined as:

    A x B = AB sin (θ)

    Here, θ is the angle between two vectors A and B. if A and B represent the same vector then the angle θ will be zero. Since sin (θ) = 0, the magintude of the vector product will also be 0.

    Therefore, for our question, the magnitude of the vector product m x m will be equal to 0.
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