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F1 Problem 4 [20 points) Three forces are applied on a rod of mass 1.5 kg...
Calculate the net torque about point o for the two forces applied as in the figure
1. Calculate the net torque about point o for the two forces applied as in the figure. The rod and both forces are in the plane of the page. Take positive torques to be counterclockwise. 2. A square metal plate 0.180 m on each side is pivoted about an axis through point center and perpendicular to the plate. Calculate the net torque about this axis due to the three forces shown in the figure if the magnitudes of the forces are...
Q21 (15 points): A uniform rod of mass m 1.5 kg and length d- 2.0 m...
Q21 (15 points): A uniform rod of mass m 1.5 kg and length d- 2.0 m is supported by a pivot point P at its top and is free to rotate iın the vertical plane. A block of mass m2 0.8 kg is attached to the other end of the rod. The rod-block system is initially at rest, and a 1g bullet is fired horizontally into the rod through a point x 08 d below the pivot P Assume that...
(14 points) The figure below shows the bird's eye view of three forces acting on a...
(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...
A rigid system is made of three rods fastened together in the form of letter H (see figure). Two ...
A rigid system is made of three rods fastened together in the form of letter H (see figure). Two rods (A and B) are identical with length hA, radius rA and mass mA. The central rod (C) has length hc radius rc and mass mc The system is free to rotate in the horizontal xy plane around the vertical z axis passing through the centre of the system. Identify the moment of inertia of the rigid system 12 mc, Consider...
The circular rod shown (Figure 1) has dimensions d1 = 6 cm , L1 = 6 m , d2 = 4.2 cm , and L2 = 5 m with applied loads F...
The circular rod shown (Figure 1) has dimensions d1 = 6 cm , L1
= 6 m , d2 = 4.2 cm , and L2 = 5 m with applied loads F1 = 120 kN
and F2 = 60 kN . The modulus of elasticity is E = 85 GPa . Use the
following steps to find the deflection at point D. Point B is
halfway between points A and C.
1)
What is the reaction force at A? Let...
Consider the following beam, under the effect of 4 forces: i. Calculate the torque net. (4...
Consider the following beam, under the effect of 4 forces: i. Calculate the torque net. (4 marks) ii. If you want to cancel the effect of this last torque, what force should be applied (Magnitude, direction, distance from pivot and angle). (2 marks) F1 = 20 N F3 = 5 N 40° 2 m Pivot (0) 60° 1.5 m * 1.0 m F = 10 N F2 = 15 N
PROBLEM 4: (8 Points) 3 Forces are applied to the bar as shown. Determine: a. The...
PROBLEM 4: (8 Points) 3 Forces are applied to the bar as shown. Determine: a. The Moment of Force Fi about Point B. b. The Moment of Force F2 about Point A c. The Moment of Force F3 about Point C. d. The Moment of Force F3 about Point E F3 150 N A F120 N 120 mm 160 mm F 90 N 250 mm 200 mm 140 mm-
Question 3 Forces F1, F2, F3, and F4 and the moment of a couple Mc are...
Question 3 Forces F1, F2, F3, and F4 and the moment of a couple Mc are acting on a 3D rigid body as shown in Fig. 3. Convert this force and moment system into a single resultant force passing through Point F and an equivalent turning moment. Calculate both the resultant force at F and the corresponding turning moment as vectors. Further, reduce the force and moment system at F into a wrench resultant and calculate the turning moment of...
4. In the figure shown, rod AB (M-2 kg, L-2 m, center of mass C located 1 m above ground) is kept on a rough surface (H...
4. In the figure shown, rod AB (M-2 kg, L-2 m, center of mass C located 1 m above ground) is kept on a rough surface (H-0.5). A horizontal force F = 10 N is applied to the rod at point D, and distance CD-L/3 m. This horizontal force F causes the rod to rotate about B. Find initial linear acceleration of the top-most point A of the rod. Figure inset shows moment of inertia of a rod. Ignore air...
8. A uniform rod of length 1.0 m and mass 0.80 kg has small 0.30 kg...
8. A uniform rod of length 1.0 m and mass 0.80 kg has small 0.30 kg attached to either end. It is made to rotate in a horizontal plane about an axis through its center The system starts from rest and after 8.0 s it is rotating at 5.0 a) What is the object's angular acceleration in ind? 0.30 kg 0.kg 0.30 kg 1.0 m b) How many revolutions did the object make in the 8.0 s it was speeding...
Q21 (15 points): A uniform rod of mass m 1.5 kg and length d- 2.0 m is supported by a pivot point P at its top and is free to rotate iın the vertical plane. A block of mass m2 0.8 kg is attached to the other end of the rod. The rod-block system is initially at rest, and a 1g bullet is fired horizontally into the rod through a point x 08 d below the pivot P Assume that...
(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...
A rigid system is made of three rods fastened together in the form of letter H (see figure). Two rods (A and B) are identical with length hA, radius rA and mass mA. The central rod (C) has length hc radius rc and mass mc The system is free to rotate in the horizontal xy plane around the vertical z axis passing through the centre of the system. Identify the moment of inertia of the rigid system 12 mc, Consider...
The circular rod shown (Figure 1) has dimensions d1 = 6 cm , L1
= 6 m , d2 = 4.2 cm , and L2 = 5 m with applied loads F1 = 120 kN
and F2 = 60 kN . The modulus of elasticity is E = 85 GPa . Use the
following steps to find the deflection at point D. Point B is
halfway between points A and C.
1)
What is the reaction force at A? Let...
Consider the following beam, under the effect of 4 forces: i. Calculate the torque net. (4 marks) ii. If you want to cancel the effect of this last torque, what force should be applied (Magnitude, direction, distance from pivot and angle). (2 marks) F1 = 20 N F3 = 5 N 40° 2 m Pivot (0) 60° 1.5 m * 1.0 m F = 10 N F2 = 15 N
PROBLEM 4: (8 Points) 3 Forces are applied to the bar as shown. Determine: a. The Moment of Force Fi about Point B. b. The Moment of Force F2 about Point A c. The Moment of Force F3 about Point C. d. The Moment of Force F3 about Point E F3 150 N A F120 N 120 mm 160 mm F 90 N 250 mm 200 mm 140 mm-
Question 3 Forces F1, F2, F3, and F4 and the moment of a couple Mc are acting on a 3D rigid body as shown in Fig. 3. Convert this force and moment system into a single resultant force passing through Point F and an equivalent turning moment. Calculate both the resultant force at F and the corresponding turning moment as vectors. Further, reduce the force and moment system at F into a wrench resultant and calculate the turning moment of...
4. In the figure shown, rod AB (M-2 kg, L-2 m, center of mass C located 1 m above ground) is kept on a rough surface (H-0.5). A horizontal force F = 10 N is applied to the rod at point D, and distance CD-L/3 m. This horizontal force F causes the rod to rotate about B. Find initial linear acceleration of the top-most point A of the rod. Figure inset shows moment of inertia of a rod. Ignore air...
8. A uniform rod of length 1.0 m and mass 0.80 kg has small 0.30 kg attached to either end. It is made to rotate in a horizontal plane about an axis through its center The system starts from rest and after 8.0 s it is rotating at 5.0 a) What is the object's angular acceleration in ind? 0.30 kg 0.kg 0.30 kg 1.0 m b) How many revolutions did the object make in the 8.0 s it was speeding...
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