A thin, homogenous wire is bent to form the perimeter of the figure indicated. Locate the center of gravity of the wire figure thus formed. Show work and free body diagram please.
A thin, homogenous wire is bent to form the perimeter of the figure indicated. Locate the...
A thin, homogeneous wire is bent to form the perimeter of the figure indicated. Locate the center of gravity of the wire figure thus formed 82 mm 32 mm 52mm
0.83 points Athin, homogeneous wire is bent to form the perimeter of the figure indicated Locate the center of gravity of the wire figure thus formed if h= 32.00 mm Round the final answer to two decimal places Y 2.84 mm 18 38 mm Hints References Resources
Please answer P48
P48 In the circuit shown in Figure 18.110, the two thick wires and the thin wire are made of Nichrome. Figure 18.110 (a) Show the steady-state electric field at the locations indicated, including in the thin wire. (b) Carefully draw pluses and minuses on your own diagram to show the approximate surface-charge distribution in the steady state. Make your drawing show clearly the differences between regions of high surface-charge density and regions of low surface-charge density. (c)...
B1. As shown in Figure Bl, a horizontally-directed force P is applied to a homogenous disk weighted W with radius ofr. P y G Figure B1 (a) Draw the free body diagram of the disk. (4 marks) (b) Show the moment of inertia Ig about point G of the disk as follow: (where mis mass of the disk): mur? (4 marks) 2 (c) Considering force equilibrium in x- and y-directions and also the moment equilibrium about point G, derive the...
Please show all work with
algebra.
Problem 4 1. An object with a mass m is attached to the free end of a light string wrapped around a reel of radius R and mass M. The reel is a solid disk, free to rotate in a vertical plane about the horizontal axis passing through its center (of mass) as shown in the figure below. The suspended object is released from rest h m above the floor. The entire system is...
1) In the figure below, a truck is modeled as a 2-DOF system (DOFs: bounce, x(t) and pitch, 0(t) motion of the truck with respect to its center of gravity, c.g.). i) Determine the EOMs using the free-body diagram provided below (denote the mass of the truck as m and mass moment of inertia wrt to its c.g.as ) = mr? where r is the radius of gyration) ii) Assuming that the influence of unbalanced tires can be modeled as...
Can you please solve the problem with showing the
details
MOHAMED ALDEGN 1996MB. Consider a thin uniform rod of mass M and length I, as shown above a. Show that the rotational inertia of the rod about an axis through its center and perpendicular to its length is MP/12. 8 vil: D.ALDEGNI ニレMLz The rod is now ghued to a thin hoop of mass M and radius R/2 to form a rigid assembly, as shoun above. The centers of the...
3. A very thin circular hoop of mass m and radius r is made to roll, without slipping, down a ramp with an angle of inclination (with respect to the horizontal), as shown in the figure below. See Figure 3. Note: The moment of inertia of the thin circular hoop is given by: I houp = mra Consider a system consisting of a ladder with a painter climbing said ladder. The ladder has a length 1 = 5,00 meters and...
PLEASE SHOW ALL WORK WITH GOOD HANDWRITING
Q5 Density 12 Points Scientists who are studying a new antibiotic have some bacteria in a petri dish. There is a dead region in the center of the dish (where the antibiotic has been applied) with a ring of bacteria around it. The inner boundary of the ring of bacteria is 1 cm from the center of the dish, and the bacteria extend from there to the outer edge of the dish. The...
A person holds two bricks together in one hand, pinching them as indicated by the arrows in the -figure to the left. As can be seen, the bricks have a tendency to swing apart at the bottom, contacting only at their top edges. We want to analyze the system to better understand its behavior and stability conditions (i.e. the bricks are not swinging around or falling out of the person's hand). This is done by analyzing a free body diagram...