please rate up the answer (
comment if something inappropriate is found). thankyou!!
help me solve this 4. (unitless) (5pts) Bonus Problem A rigid straight bar of length I...
include free body diagram
. [18 pts] A uniform long slender bar of mass m 6.8 kg and length0.9 m is attached at one of its ends (A) to a horizontal rope while its other end (B) slides without friction on the floor. For the instant when the bar is released from rest in the configuration shown (where θ 45 degrees): (a) Develop expressions for a and ay, the accelerations of the bar's centre of mass in the along with...
I
need to rescale (4) from the first page to the equation on the
second page.
2.[60pts.] A bead of mass m is constrained to slide along a straight rigid horizontal wire. A spring with natural length Lo and spring constant k is attached to the bead and to a support point a distance h from the wire. See Figure 1. Let z(t) denote the position of the bead on the wire at time t. (Note that x is measured...
(30 Pints) The 10-kg bar is released from the horizontal position when it is rested. The coefficient of restitution between the bar and bumper B is 0.5, and the duration of the impact is 5 ms. Determine the maximum angle of inclination of the bar subsequent to the impact and the average force exerted by the bumper during the impact. (you can assume that g 10 m/s?) 12 m 1.6m (20 Points) The bar AD is 5 kg and 2...
please tell me the answer and tell me why you chose it please help
me!! i would appreciate it
This page LUNClusions on the back of C) 9.8 m/s o D) 10 miles per hour 18) Calculate the velocity acciate the velocity at time t=2s for a ball the A) 10.1 m/s B) -5.2 m/s C) 0.3 m/s D) 4.6 m/s straight up with an initial velocity of 15 m 19) A rock is tossed skyward at an angle of...
Please help with both problems.
Im really lost on this chapter
Group Problem 1. A conducting bar with mass m and resistance R slides on frictionless conducting rails, separated by a distance 1 from each other, in a region that has a static uniform magnetic field B directed into the page (see figure below). An external agent is pushing the bar, maintaing its motion to the right with constant velocity ū. At time t = 0, the agent abruptly stops...
can you show me step by step
please?
2) Link OA has a length Lox and rotates about the fixed axis at O with an unknown anga with velocity eo, and unknown angular acceleration, ao when link OA makes an angle o respect to the horizontal. Bar AB has a length of LAn and is connected to a collar const to move along the vertical guide. The center of the vertical guide is a horizontal distance. from the fixed axis...
A rigid, uniform, horizontal bar of mass m1 and length L is
supported by two identical massless strings. (Figure 1) Both
strings are vertical. String A is attached at a distance d<L/2
from the left end of the bar and is connected to the ceiling;
string B is attached to the left end of the bar and is connected to
the floor. A small block of mass m2 is supported against gravity by
the bar at a distance x from...
plZZ someone help me to understand this question with
details
if u can ONLY solve the LAST two parts e and f
Q4. For the linkage mechanism shown in Figure 4, pin A is guided by the flanges of the collar B that is constrained to move with constant horizontal velocity V3 = 1 m/s in the direction as shown. Using carefully hand drawn-to-scale velocity and acceleration diagrams for the instant when 0 = 40 degrees, calculate: a. Sliding velocity...
The long, straight wire shown in the figure a carries constant current I. A metal bar with length L is moving at constant velocity v, as shown in the figure. Point a is a distance d from the wire. Part A Calculate the emf induced in the bar. Part B Which point, a or b, is at higher potential? Part C If the bar is replaced by a rectangular wire loop of resistance R (the figure b), what is the magnitude of the current induced in...
Please help me with these 2!
QUESTION 4 The energy of an isolated system moving in a straight-line along the x-axis is given by the following equation: J E = (akg) v. + b X m If a = 6 and b = 6, what is the magnitude of the acceleration of this system (in m/s2)? QUESTION 4 The angular acceleration of an object as a function of time is given by the equation: rad 2 a(t)= a در 4...