A metal bar is in the xy-plane with one end of the bar at the origin. A force F⃗ =( 6.67 N )i^+( -2.62 N )j^ is applied to the bar at the point x= 2.60 m , y= 3.00 m . Part A What is the position vector r⃗ for the point where the force is applied? Enter the x and y components of the radius vector separated by a comma. Part B What are the magnitude of the torque with respect to the origin produced by F⃗ What are direction of the torque with respect to the origin produced by F⃗ ? +x-direction +y-direction +z-direction −x-direction −y-direction −z-direction
A metal bar is in the xy-plane with one end of the bar at the origin....
A metal bar is in the xy-plane with one end of the bar at the origin. A force F⃗ =( 6.22 N )i^+( -2.81 N )j^ is applied to the bar at the point x= 3.58 m , y= 3.46 m . Part A: What is the position vector r⃗ for the point where the force is applied? Enter the x and y components of the radius vector separated by a comma. Part B: What are the magnitude of the...
A metal bar is in the xy-plane with one end of the bar at the origin. A force F =( 6.39 N )i +( -3.16 N )j is applied to the bar at the point x = 2.29 m, y = 3.19 m.A) What is the position vector r⃗ for the point where the force is applied?Enter the x and y components of the radius vector separated by a comma.*B) What is the magnitude of the torque with respect to...
A metal bar is in the xy-plane with one end of the bar at the origin. A force F⃗ =( 7.21 N )i^+( -3.35 N )j^ is applied to the bar at the point x = 3.40 m, y = 3.25 m. What is the magnitude of the torque with respect to the origin produced by F⃗→?
Constants Part A A metal bar is in the xy-plane with one end of the bar at the origin. A force F (6.54 N)i ( 3.06 N )j is applied to the bar at the point x- 3.81 m, y 3.60 m What is the position vector r for the point where the force is applied? Enter the x and y components of the radius vector separated by a comma Submit Request Answer Part B What are the magnitude of...
A metal bar is in the xy-plane with one end of the bar at the origin. A force F =(6.12 N )i+(-3.27 N )j is applied to the bar at the point x = 2.07 m, y = 3.02 m. Part A What is the position vector for the point where the force is applied?Part B What is the magnitude of the torque with respect to the origin produced by F?
1. (a) Force F = -21 - 4 (N) is applied to a metal bar in the x-y plane with one end of the bar at the origin. The point on the bar of application of the force is (x - 2m, y m). Use the position vector (1) of the point of action of the force to find the magnitude and direction of the torque. Hint: Employ method of determinant to find cross product (6pts) Show working (2pts) Magnitude...
A force F⃗ of magnitude F making an angle θ with the x axis is applied to a particle located along axis of rotation A, at Cartesian coordinates (0,0) in the figure. The vector F⃗ lies in the xy plane, and the four axes of rotation A, B, C, and D all lie perpendicular to the xy plane. A particle is located at a vector position r⃗ r→r_vec with respect to an axis of rotation (thus r⃗ r→r_vec points from...
To understand two different techniques for computing the torque on an object due to an applied force.Imagine an object with a pivot point p at the origin of the coordinate system shown (Figure 1). The force vector F⃗ lies in the xy plane, and this force of magnitude F acts on the object at a point in the xy plane. The vector r⃗ is the position vector relative to the pivot point p to the point where F⃗ is applied.The torque on the...
A force F⃗ = 2.00 N i⃗ + 3.10 N j⃗ is applied at the point x = 3.20 m , y = 0.00 m . Find the torque about the origin due to the force F⃗ . Give the x, y, and z components. What is the torque due to the same force, applied at the same location, about the point x = -1.00 m , y = 3.10 m ? Give the x, y, and z components.
A 12-N force is applied at the point x=3m, y=1m. Find the torque about the origin if the force points in (a) the x direction, (b) the y direction, and (c) the z direction. Part A For example, for vector <1,1,1> enter i^+j^+k^. Part B For example, for vector <1,1,1> enter i^+j^+k^. Part C For example, for vector <1,1,1> enter i^+j^+k^.