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What is the correct expression of position vector rcb (in feet)?
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What is the correct expression of position vector rcb (in feet)?

User Jakub Kulhan
by
5.7k points

1 Answer

3 votes

Answer:

4i+j-2k

Explanation:

The missing figure in this problem as been attached, as we can see the figure is a 3-D figure consisting of rods with point C and B.

Using the figure we can find the value of position vector
r_(cb)

r
_(CB)=
r_(b)-
r_(c)

As we know , a position vector is the difference of position vector of ending point to the position vector of starting point, here the starting point is C and ending point is B. Hence, the expression above.

We need to first find
r_(b) and
r_(c)

Using the figure:


r_(b) =0i+4j+2k


r_(c) = -4i+3j+4k

r
_(CB)=
r_(b)-
r_(c)=(0i+4j+2k) - (-4i+3j+4k)

r
_(CB)=4i+j-2k (feet)

Magnitude of
r_(cb)=
\sqrt{4^(2)+(1)^(2)-2^(2) }=
√(21)=4.583 ft

What is the correct expression of position vector rcb (in feet)?-example-1
User Davr
by
5.1k points
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