Consider the three displacement vectors A - (-i-3j) mB - (7m and C-5j m. Use the...
Consider the three displacement vectors A = (3i - 3j) m, B = (i - 4j) m, and C = (2i + 5j) m. Use the component method to determine (a) the magnitude direction of the vector D = A + B + C and (b) the magnitude and direction of E = -A - B + C. A person going for a walk follows the path shown in Figure P1.51. The total trip consists of four straight-line paths. At...
points SerPSE 10 3.4 P three displacement vectors A-(i-31) m, B-(i-5))m, and C--6i+5)) m. Use the component method to -(-61+ 55) m. Use the component method to determine the folowing. (ake the drection to be to the right.) (a) the magnitude and direction of the vector D-A+B+ magnitude direction e counterclockwise from the +x axis (b) the magnitude and direction off-小i magnitude direction 。counterclockwise from the +x axis
A football player runs the pattern given in the drawing by the three displacement vectors , , and . The magnitudes of these vectors are A = 5 m, B = 12.0 m, and C = 25.0 m. Using the component method, find the magnitude and direction θ of the resultant vector + + . (Assume that up along the screen is the positive y-axis and that right is the positive x-axis.) magnitude ? m degrees ? direction below the...
The magnitudes of the four displacement vectors shown in the drawing are A = 15.0 m, B = 12.0 m, C = 12.0 m, and D = 24.0 m. Determine the (a) magnitude and (b) direction for the resultant that occurs when these vectors are added together. Specify the direction as a positive (counterclockwise) angle from the +x axis.
4. Consider the three displacement vectors shown in the figure: Vector A has a magnitude of 7.70 km and a direction that makes an angle -25.0o to the left of the positive y-axis, vector B has a magnitude of 5.90 km and a direction that makes an angle of α =28.0° above the positive x-axis, and vector C has a magnitude of 4.10 km and a direction that makes an angle B-55.0° below the negative x-axis. Determine the magnitude of...
A football player runs the pattern given in the drawing by the three displacement vectors A, B, and C. The magnitudes of these vectors are A = 5 m, B = 12.0 m, and C = 21.0 m. Using the component method, find the direction θ of the resultant vector A + B + C. (Assume that up along the screen is the positive y-axis and that right is the positive x-axis.)
4 Consider the three displacement vectors shown in the gure: Vector A has a magnitude of 8.30 km and a direction that makes an angle θ-30.0 to the left of the positive y axis, vector B has a magnitude of 5.90 km and a direction that makes an angle of a -31.0° above the positive x-axis, and vector C has a magnitude of 4.10 km and a direction that makes an angle 8-54.0 below the negative x-axis. Determine the magnitude...
4. Consider the three displacement vectors shown in the figure: Vector A has a magnitude of 8.20 km and a direction that makes an angle θ = 31 OP to the left of the positive y-axis, vector B has a magnitude of 5 10 km and a direction that makes an angle of α =20.0° above the positive x-axis and vector C has a magnitude of 440 km and a direction that makes an angle β = 550° below the...
Help please 4. Consider the three displacement vectors shown in the figure: Vector A has a magnitude of 7.70 km and a direction that makes an angle θ 26.0 to the left of the positive y-axis, vector B has a magnitude of 6.00 km and a direction that makes an angle of α-200° above the positive x-axis, and vector C has a magnitude of 4.20 km and a direction that makes an angle B 61.0° below the negative x-axis. Determine...
4 Consider the three displacement vectors shown in the figure: Vector has a magnitude of 780 km and a direction that makes an angle θ = 340 to the left of the positive y-axis, vector B has a magnitude of 5.00 km and a direction that makes an angle of a -26.0P 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...