Consider two force vectors in the xy-horizontal plane. Suppose a force of 17.7 N pointing along...
Help on this question. I can't seem to get
it right
Consider two force vectors in the xy-horizontal plane. Suppose a force of 18.7 N pointing along the +x-axis is added to a second force of 20.1 N directed at 55 degrees to the +x-axis , also in the horizontal plane. Find the resultant vector for this sum.
A force of 15.2 N directed along the positive x-axis combines with a second force of magnitude 14.8 N and unspecified direction. What is the minimum possible magnitude of the resultant total force?
You are given two vectors, one pointing in the x direction and the other pointing in the y direction. Is it possible to find a third vector so that the sum of the three vectors is equal to zero? yes yes, but only because the vectors are perpendicular no only if the two vectors have the same magnitude A points in the-X direction with a magnitude of 12, what is the y component of A? Enter an exact number C...
need help with this problem
2) For the three force vectors in the x-y plane, a) Calculate the sum of the force vectors (R) by first calculating EF, and EFy (the scalar sums of the x and y force components, respectively) and then writing the vector result R in îjk summation format. Calculate the magnitude of the resultant,RI, and фх, the angle the resultant makes with the x- axis Sketch R and the angle φ b) c) 15 N 10...
Suppose that θ = 63°. (Figure 1)Two force vectors acting on a screw eye attached to a left
vertical wall are shown in the xyz space. The wall lies in the xz
plane, and the screw eye is located at the origin. Force F 1 is 300
newtons, and it is located in the second octant, 60 degrees above
the xy plane. The projection of the vector in the xy plane makes an
angle of 45 degrees with the positive...
One force vector points in the -x direction and has magnitude 900 newtons (N). We don't know the second force vector, but we know that the sum of the two is a vector pointing exactly in the +y direction, with magnitude 100 N. Describe the unknown second force vector by a) giving its components along the x and y axes (including the correct sign), and b) giving its magnitude and its direction, where zero degrees is in the +x direction...
Determine the magnitude of force F and its direction b in degrees if the magnitude of the resultant force R acting on the bracket is directed along the u axis. Use R = 99 N, F1 = 69 N, F2 = 52 N, a = 50 degrees for your calculations.
Vector A⃗ has magnitude 8.80 m and is in the xy-plane at an angle of 128 degrees counterclockwise from the +x–axis (38 degrees past the +y-axis). The sum A⃗ +B⃗ is in the −y-direction and has magnitude 12.0 m. a) What is the magnitude of vector B⃗ ? b)What is the direction angle of vector B⃗ measured counterclockwise from the +x-axis?
1. Two vectors are given by 16m at 45 degrees from the x axis and 25 m at 30 degrees from the x axis. Draw the two vectors to scale. Start the second vector at the end of the first vector. Draw the resultant vector. a. b. Write each vector in terms o ij coordinates. c. What is the sum of the two vectors? Write your answer in <4 format and as a magnitude and an angle.
a,, and C,each have a magnitude of 53.0 m and lie in an xy plane. Their directions relative to the positive direction of the x axis are 31 b and directions relative to the positive direction of the x axis are 31.0,191 and 313. hree vectors le of the vector ab(relative to the +x direction in the range of (-180°, 1809), and (e) the megnitude and (d) the angle a -b + С nthe range of (-180°, 180°)? what are...