Λa+µb+vc =0 constants not all zero c.(axb)=0

indie452 · May 13, 2009

Homework Statement

past paper qu...

λa + µb + vc = 0
for some λ, µ, v not all zero show c.(axb)=0

consider cases v not equal to 0 and v = 0

The Attempt at a Solution

not sure how to start so if someone could just point me in the right direction or offer another hint it may help me get started in the mean time i'll keep looking at it

thanksok i think i made a bit of progress:-

when v not= 0
λa.(axb) + µb.(axb) + vc.(axb) = 0.(axb)

so vc.(axb) = 0
=> c.(axb) = 0

Dick · May 13, 2009

Use properties of the dot and cross product. axb is perpendicular to both a and b, right?
So a.(axb)=b.(axb)=0. And if a and b are parallel, then axb=0.

indie452 · May 13, 2009

Dick said:

Use properties of the dot and cross product. axb is perpendicular to both a and b, right?
So a.(axb)=b.(axb)=0. And if a and b are parallel, then axb=0.

ok this along with the progress i made earlier has helped me do the qu

thanks a lot

Λa+µb+vc =0 constants not all zero c.(axb)=0

Homework Statement

The Attempt at a Solution

1. What is the meaning of the equation Λa+µb+vc =0?

2. How do you determine if the constants Λ, µ, and v are all equal to zero in the equation Λa+µb+vc =0?

3. What is the significance of c.(axb)=0 in the equation Λa+µb+vc =0?

4. How can the equation Λa+µb+vc =0 be solved for the constants Λ, µ, and v?

5. Can the equation Λa+µb+vc =0 have multiple solutions for the constants Λ, µ, and v?

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