The figure below shows seven particles, each with the same magnitude of momentum |p|= 22 kg m/s but with different directions of momentum and different positions relative to location A. The distances shown in the diagram have these values: w = 17 m, h =27 m, and d = 27 m. Calculate the z component of angular momentum LA z for each particle (x to the right, y up, z out of the page). Make sure you give the correct sign.
The figure below shows seven particles, each with the same magnitude of momentum p22 kg m/s...
As shown in the figure below, seven forces all with magnitude |F| = 57 N are applied to an irregularly shaped object. Each force is applied at a different location on the object, indicated by the tail of the arrow; the directions of the forces differ. The distances shown in the diagram have these values: w=7m, h=16 m, and d=12 m.For each force, calculate the z component of the torque due to that force, relative to location A (x to...
As shown in the figure below, seven forces all with magnitude F = 40 N are applied to an irregularly shaped object. Each force is applied at a different location on the object, indicated by the tail of the arrow; the directions of the forces differ. The distances shown in the diagram have these values: w = 7 m, h = 16 m, and d = 12 m. For each force, calculate the component of the torque due to that...
Physics problem 15 Two charged particles are moving with different speeds and directions. Charge q,--110. C BECAREFUL OF q1's SIGN) and q2 -3x1015 C. The diagram indicates their relative locations, speeds, and trajectories. v, 3000 m/s v2 2000 m/s 41 3 mm 42 4 mm what is the B-field (magnitude and direction) that particle #2 generates at particle #l's location? a) b) What is the magnitude of the magnetic force particle #1 is experiencing? c) What is the direction of...
The figure below shows the positions of two alpha particles (each alpha particle has a charge +2e and an electron. a) Draw a clear and neat free-body diagram for either sphere at equilibrium. b) Determine the magnitude and direction of the resultant force on the electron. (Hint: Choose the +x-axis along the line from the electron to the right-hand particle.) c) Determine the acceleration of the electron due to the net force acting on it. The mass of the...
A common amusement park ride is a Ferris wheel (see figure below, which is not drawn to scale). Riders sit in chairs that are on pivots so they remain level as the wheel turns at a constant rate. A particular Ferris wheel has a radius of 27 meters, and it makes one complete revolution around its axle (at location A) in 24 s. In all of the following questions, consider location A (at the center of the axle) as the...
Question 7. and Angular Momentum e magnitudes of the torques they roduce on the particles about the ori- in, greatest first. is tne ner torque on tne parucie (aj zero, (o) posiive ana con- stant, (e) negative and increasing in magnitude (>0), and (d) negative and decreasing in magnitude (t> 0)? What happens to the initially sta- onary yo-yo in Fig. 11-25 if you pull it ia its string with (a) force & (the line f action passes through the...
9.6 FE/EIT Review - Momentum, energy, and orbital mechanics.maF The following figure shows a satellite Q (modalnd s particke of mase m) in an ellptical orbit around Earth. Earth is modeled as a particle O fixed in a Newtonian reference frame N Draw right-handed orthogonal unit vectors i, i,, і, fixed in N with fix horizontally-... right and parallel to the ellipse's major diam- eter, i, vertically-upward and parallel to the ellipse's minor diameter, and fi, perpendicu lar to the...
1- 5. Two particles each of mass m are fixed at the end of a rigid rod of length 2a. This rod lies in the xy plane and is free to rotate in that plane about an axis passing through the midpoint of the rod and perpendicular to it (that is, parallel to the z-axis). Neglect the inertial properties of the rod in the rest of this question z-axis 1. Derive the classical expression for the kinetic energy of the...
1- 5. Two particles each of mass m are fixed at the end of a rigid rod of length 2a. This rod lies in the xy plane and is free to rotate in that plane about an axis passing through the midpoint of the rod and perpendicular to it (that is, parallel to the z-axis). Neglect the inertial properties of the rod in the rest of this question z-axis 1. Derive the classical expression for the kinetic energy of the...
Consider a system consisting of three particles: m1 = 5 kg, v1 = <11, -8, 12>m/s m2 = 2 kg, v2 = < -13, 4, -5 > m/s m3 = 2 kg, v2 = < -22, 38, 20 > m/s (a) What is the total momentum of this system? (b) What is the velocity of the center of mass of this system? (c) What is the total kinetic energy of this system? (d) What is the translational kinetic energy of this system? (e) What is the kinetic energy...