Add the following vectors. Find the size (magnitude) of the resultant vector. Determine the angle from the resultant vector counterclockwise to the right side x-axis.
Add a vector 6 units due east and a vector 8 units due south. Show your work on a graph.
Add the following vectors. Find the size (magnitude) of the resultant vector. Determine the angle from...
Add the following vectors. Find the size (magnitude) of the resultant vector. Determine the angle from the resultant vector counterclockwise to the right side x-axis. Add a vector 8 units due south and a vector 6 units due east. Show your answer on a graph.
Find the magnitude and direction of the resultant vector of the following four vectors. Calculate the angle relative to x axis. Vector A: 10 m, 30* above the +x axis Vector B: 12 m, 15° left of +y axis Vector C: 7 m, 20° below the -x axis Vector D: 15 m, 40* right of -y axis
8. Vector ? has a magnitude of 35.0 units and points in the direction 325° counterclockwise from the positive x axis. Calculate the x and y components of this vector. 9. A vector has an x component of -25.0 units and a y component of 40.0 units. Find the magnitude and direction of this vector. 10. A force ? 1 of magnitude 6.00 newtons acts on an object at the origin in a direction θ = 30.0° above the positive...
Determine the Resultant, R, and Equilibrant, E, vector from the components of A and B A: 2.45 N at 60 degrees from the positive x-axis B: 1.47 N at 0 degrees from the positive x-axis a. Determine the components Rx and Ry of the resultant vector R by finding the sum of these two vectors in terms of components. Show all of your work starting from the symbolic equation and include units. b. Determine the magnitude R, of the resultant...
Vector Addition – add the following 3 vectors (find the resultant vector – magnitude and orientation) F1 = 85 N, 60º above the horizontal F2 = 180 N, 35º below the horizontal F3 = 35 N, along the vertical (at 90º) Please explain how you got your answer.
Vector Addition – add the following 3 vectors (find the resultant vector – magnitude and orientation) F1 = 85 N, 60º above the horizontal F2 = 180 N, 35º below the horizontal F3 = 35 N, along the vertical (at 90º)
Vector Addition – add the following 3 vectors (find the resultant vector – magnitude and orientation) F1 = 85 N, 60º above the horizontal F2 = 180 N, 35º below the horizontal F3 = 35 N, along the vertical (at 90º)
please help me. than A vector A^rightarrow has a magnitude of 9 units and points in the -y direction, while a vector B^rightarrow has double the magnitude of A^rightarrow and points in the +x direction. What are the magnitude and direction of the following vectors? Give the directions of each as an angle measured counterclockwise from the +x direction. A^rightarrow + B^rightarrow magnitude unit(s) direction Use trigonometric functions to determine the angle. Check this angle against your diagram. Based on...
In this lab you will be given two different sets of vectors to add together. In Activity 1, you will add position vectors: in Activity 2 you will add forces. Vector addition is an important concept in physics. To be well prepared for the lab you need to solve the following example. Make sure to show all your work in detail. Write the equations first, and then plug in the numerical values. Do not forget to do unit conversions. Use...
Vector A has a magnitude of 146 units and points 36.0° north of west. Vector B points 63.0° east of north. Vector points 16.0° west of south. These three vectors add to give a resultant vector that is zero. Using components, find the magnitudes of the following vectors e) vector B x units (b) vector C x units Enter a number