vector A has a magnitude of 40.0 m and points in a direction 24.0° above the negative x-axis. A second vector, vector B , has a magnitude of 84.0 m and points in a direction 60.0° below the positive x-axis. Using the component method, find the magnitude of the vector D resulting from vector A - vector B
vector A has a magnitude of 40.0 m and points in a direction 24.0° above the...
A vector A→ has a magnitude of 44.0 m and points in a direction 26.0° above the positive x-axis. A second vector, B→, has a magnitude of 84.0 m and points in a direction 40.0° below the negative x-axis. Using the component method, find the magnitude of the vector →R=→A+→B
A vector →A has a magnitude of 44.0 m and points in a direction 26.0° above the positive x-axis. A second vector, B→, has a magnitude of 84.0 m and points in a direction 40.0° below the negative x-axis. Using the component method, find the magnitude of the vector →R=→A + →B
A vector → A has a magnitude of 44.0 m and points in a direction 26.0° above the positive x-axis. A second vector, → B , has a magnitude of 84.0 m and points in a direction 40.0° below the negative x-axis. Using the component method, find the magnitude of the vector → D = → A − → B .
3. A vector A has a magnitude of 58.0 m and points in a direction 24.0 below the negative x-axis. A second vector, B, has a magnitude of 82.0 m and points in a direction 55.0° below the positive x-axis. Using the component method, find the magnitude of the vector D-A B in
2. A vector Ä has a magnitude of 60.0 m and points in a direction 20.0° below the positive x-axis. A second vector, B, h as a magnitude of 84.0 m and ints in a direction 58.0° below the negative x-axis. Using the component method, find the magnitude of the vector R-A+ B tude of 84.0 m and
2. A vector A has a magnitude of 58.0 m and points in a direction 24.0° below the negative x axis. A second vector, B, has a magnitude of 82.0 m and points in a direction 55.0 below the positive x-axis. Using the component method find the magnitude of the vector A +
2. A vector A has a magnitude of 400 m and points in a direction 22.0° above the negative x-axis. A second vector, B.has a magnitude of 700 m and points in a direction 48.0° below the positive x-axis Using the component method, find the magnitude of the vector R-A+B. 3. A vector A has a magnitude of 40.0 m and points in a direction 22.0 above the negative x-axis. A second vector, B, has a magnitude of 700 m...
2. A vector A has a magnitude of 50.0 m and points in a direction 28.0° above the negative x-axis. A second vector, B. has a magnitude of 80.0 m and points in a direction 60.0 above the negative x-axis. Using the component method, find the magnitude of the vector R- Ä + B. x Blank m 3. A vector A has a magnitude of 50.0 m and points in a direction 28.0° above the negative x-axis. A second vector,...
A vector A has a magnitude of 42.0m and points in a direction of 24.0 degrees above the positive x-axis. A second vector, B, has a magnitude of 72.0m and points in a direction 45.0 degrees below the positive x-axis. Using the components method, find the magnitude of the vector D=A-B.
Please solve both. Same problem but one is looking for vector R and the other vector D. 2. A vector A has a magnitude of 60.0 m and points in a direction 28.0P above the negative x-axis. A second vector, B, has a magnitude of 840 m and points in a direction 58.0° below the positive x-axis. Using the component method, find the magnitude of the vector R-A+B. 3. A vector A has a magnitude of 60.0 m and points...