Here we apply vector resolution, vector addition and vector dot product concept.
In the figure below are three vectors. Vector A has a length of 33.0, B's length...
Physics:
In the figure below are three vectors. Vector A has a length of 39.0, B's length is 63.0, and C is 21.0. Find the following magnitudes and directions: At what angles above and below the horizontal line could vector A be at so that A Times B = 0? 90 degree above, or 70 degree below 110 degree above, or 70 degree below 0 degree above, or 180 degree below 20 degree above, or 160 degree below
In the figure below are three vectors. Vector A has a length of
38.0, B\'s length is 64.0, and C is 23.0. Find the following:
1. A(dot)B = ?
2. B(dot)(A+C) = ?
3. At what angles above and below the horizontal line could
vector A be at so that A·B = 0?
a. 90 degrees above, 90 degrees below
b. 90 degrees above, 70 degrees below
c. 110 degrees above, 70 degrees below
d. 20 degrees above, 160 degrees...
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In the figure below are three vectors. Vector A has a length of 35.0, B's length is 61.0, and C is 23.0. Find the following magnitudes and directions: At what angles above and below the horizontal line could vector A be at so that A times B = 0?
In the figure below are three vectors. Vector A has a length of 36.0, B?s length is 65.0, and C is 24.0.Find the following magnitudes and directions:At what angles above and below the horizontal line could vector A be at so that A x B = 0?90 degree above, or 70 degree below20 degree above, or 160 degree below110 degree above, or 70 degree below0 degree above, or 180 degree below
In the figure below are three vectors. Vector A has a length of 340, B?s length is 61.0. and C is 21.0. Find the following: At what angles above and below the horizontal line could vector A be at so that k B = 0?
In the figure below are three vectors Vector A has a length of 360. B?s length is 66.0, and C is 25.0. Find the following magnitudes and directions At what angles above and below the horizontal line could vector A be at so that A x B = 0?
Each of the displacement vectors [vector A] and [vector B] shown in the figure below has a magnitude of 3.00 m. Find the following values graphically. Report all angles counterclockwise from the positive x axis. (a) [vector A] + [vector B]=? maginitude=? θ °=? (b) [vector A] - [vector B]=? magnitude =? θ °=? (c) [vector B] - [vector A]=? magnitude=? θ °=? (d) [vector A] - 2 [vector B]=? magnitude=? θ °=?
4 Consider the three displacement vectors shown in the figure: Vector A has a magnitude of 780 km and a direction that makes an angle θ 340 to the left of the positive y-axis, vector has a magnitude of 5.00 km and a direction that makes an angle of α-260 above the positive x-axis, and vector C has a magnitude of 3,90 km and a direction that makes an angle B-57.0° below the negative x-axis. Determine the magnitude of the...
1. Draw the following three vectors tip to tail: A-3 cm NE (Note: NE = 45°) B = 6 cm S (Note: S = 270º) C=8 cm at 110° All angles should be measured from the horizontal. 2. Now connect the tail of vector A to the tip of vector C. This is the Resultant Vector, R. 3. Measure the length of vector R and it's angle from the horizontal, 8. Length of R-
4. Consider the three displacement vectors shown in the figure: Vector A has a magnitude of 750 km and a direction that makes an angle 290% to the left of the positive y-axis vector B has a magnitude of 5.80 km and a direction that makes an angle of α =35.0° above the positive x-axis, and vector C has a magnitude of 3.10 km and a direction that makes an angle = 67.0 below the negative x-axis Determine the magnitude...