Find the net torque about the given point and use the angular acceleration to find the moment of inertia as shown below
The figure below shows three forces of magnitude FA=25.3 N, F3=21.3 N, and Fc=28.8 N acting...
The figure below shows three forces of magnitude FA=22.1 N, FB=23.1 N, and FC=27.3 N acting on an object which is free to rotate about a fixed axis at the point O as shown in the figure. The respective distances from point O are RA=4.6 m, RB=3.5 m, and RC=1.0 m. If the tangential acceleration of point A is aT=2.1, what is the rotational inertia of the object? The figure below shows three forces of magnitude Fa=22.1 N, FB=23.1 N,...
The figure below shows three forces of magnitude FA=22.1 N, FB=23.1 N, and FC=27.3 N acting on an object which is free to rotate about a fixed axis at the point O as shown in the figure. The respective distances from point O are RA=4.6 m, RB=3.5 m, and RC=1.0 m. If the tangential acceleration of point A is aT=2.1, what is the rotational inertia of the object? F Fc С 135°C A 160° 90° FB B
Answer saved Points out of 1.00 P Flag question The figure below shows three forces of magnitude FA=25.3 N, F8-21.3 N, and Fc=28.8 N acting on an object which is free to rotate about a fixed axis at the point as shown in the figure. The respective distances from point o are RA=4.6 m, Rg=3.4 m, and Rc=2.0 m. If the tangential acceleration of point A is a =2.9, what is the rotational inertia of the object? FA FC 135°C2...
The figure below shows three forces of magnitude FA=22.1 N, FB=23.1 N, and FC=27.3 N acting on an object which is free to rotate about a fixed axis at the point O as shown in the figure. The respective distances from point O are RA=4.6 m, RB=3.5 m, and RC=1.0 m. If the tangential acceleration of point A is aT=2.1, what is the rotational inertia of the object? F A FC С 1359 A 160° O 90° Fв B
The figure below shows three forces of magnitude FA=24.1 N, FB=20.4 N, and FC=27.2 N acting on an object which is free to rotate about a fixed axis at the point O as shown in the figure. The respective distances from point O are RA=4.5 m, RB=2.7 m, and RC=1.4 m. If the tangential acceleration of point A is aT=2.7, what is the rotational inertia of the object? F 금 A FC C 135° A 160° 90° B
The figure below shows three forces of magnitude FA=24.1 N, F8=20.4 N, and Fc=27.2 N acting on an object which is free to rotate about a fixed axis at the point O as shown in the figure. The respective distances from point o are Ra=4.5 m, Rg=2.7 m, and Rc=1.4 m. If the tangential acceleration of point A is ar=2.7, what is the rotational inertia of the object? FC С 135° 160° 90° B Select one: 75.00 kg m^2 34.62...
The figure below shows three forces of magnitude FA=24.1 N, Fe=20.4 N, and Fc=27.2 N acting on an object which is free to rotate about a fixed axis at the point O as shown in the figure. The respective distances from point o are RA=4.5 m, R=2.7 m, and Rc=1.4 m. If the tangential acceleration of point A is ar=2.7, what is the rotational inertia of the object? FA Fc 135°C 160° 90° Fa B Select one O 75,00 kg...
The figure below shows a constant horizontal force of magnitude Fa=17 N pushing a book of mass m=2.4 kg a distance d=4.4 m up along a frictionless ramp which makes an angle θ=25° with the horizontal. If the book begins at rest what is the speed of the object after it has moved a distance d? d an Psychology e
(14 points) The figure below shows the bird's eye view of three forces acting on a long, thin rod with a length of 2.40 m that can pivot about a point one-fourth of its length from one end of the rod. The moment of inertia of the rod about its pivot point is 37.8 kg.m. Forces 1 and 2 each have a magnitude of 120 N. Force 1 acts perpendicularly to the rod at the end of the rod nearest...