What are the two possibilities for its x component problem?

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The discussion centers on determining the x component of a vector with a magnitude of 85.0 units and a y component of -40.0 units. The two possible values for the x component are calculated using the Pythagorean theorem, resulting in approximately 75 and -75. For the second part of the question, the required vector to achieve a resultant vector of 85.0 units in the -x direction is clarified through vector algebra. The original vector and the resultant vector should be expressed in the form xî + yĵ for proper analysis.
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You are given a vector in the xy plane that has a magnitude of 85.0 units and a y component of -40.0 units.
(a) What are the two possibilities for its x component?
____
____
(b) Assuming the x component is known to be positive, specify the vector which, if you add it to the original one would give a resultant vector that is 85.0 units long and points entirely in the -x direction.
Magnitude
____
Direction
____°
 
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A. Start by using your Magnitude Formula (pythagorean theorem) and look x value (you will get 2 as its a square root).
 
93.9 and -93.9?
 
mathcrzy said:
93.9 and -93.9?

careful. (x-component)^2 + (y-component)^2 = magnitude^2.
 
thanks. i got it 75 and -75. now what is the second part of the question asking? would it be -85?
 
mathcrzy said:
thanks. i got it 75 and -75. now what is the second part of the question asking? would it be -85?

No. Just use vector algebra. What is the original vector? what is the resultant vector? write them in the form x\vec{i} + y\vec{j}.
 

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