find the acceleration of B,C,D assume w2=3rad/s cw and α2=4rad/s2 ccw . solution must include graphical and analytical methodexplain the step by step procedure for graphily method
find the acceleration of B,C,D assume w2=3rad/s cw and α2=4rad/s2 ccw . solution must include graphical...
3rad/s [CW] and 1- Find the acceleration of AB, Ac, Ad, Assume W2 az = last digit of your student ID rad/s? [CCW] 1.5 D 4.0 B 02 02 = 150° С 2.0 o
1- Find the acceleration of AB, Ac, Ad, Assume W2 = 3rad/s [CW] and az = 8 rad/s 1.5 D 4.0 B W2 @2 = 150° С 2.0 O
2- In the following mechanism find a4 , AA, AB, Ac where w2=2 rad/s [CW] all dimensions are in mm and az 8 rad/s [CW] A 01A = 30 02 = 70° AB=70 AC=29 BC=53 04B = 25 01 17 64 04 B Solutions must include both graphical and analytical methods. Explain the step-by- step procedure for graphically developing the velocity/acceleration image. Detailed analytical procedure including all trigonometric functions used must be presented. The consistency between the graphical and analytical...
Find the acceleration using both the graphical and analytical method 5 m P#4 L1= 6m L2 3 m La= 5 m L4= 4 m e2= 65" W2= 1.5 rad/s (CCW) alphag = 0 rad/s O3= ?? W3 = ??, direction ?? ??, direction ?? W4 VAB ?? B04=?? alphag ??, direction = ?? alpha, ??, direction ?? 6 m 3 m 65.00 5 m P#4 L1= 6m L2 3 m La= 5 m L4= 4 m e2= 65" W2= 1.5...
plz solve the last two parts c and d Q3. The four bar linkage mechanism as shown in Figure 3 has two hydraulic cylinders controlling the motion of the connecting rods A and C so that they can only move in the vertical direction. At this instance, the distance y is 150 mm, A has an upwards velocity of 4 m/s and C has a downwards velocity of 3 m/s. Using a carefully drawn scaled velocity and acceleration diagram, (scale:...
fill in the blanks. b a d (s+1) S-1 5+1 st-2s +1 Example 3: Find the solution to the 4th order IVP y'' - 2y" + y = 0, y(0) = 1, y'0) = -1, y"0) = 0, and y'" (0)=2. Solution: Step 1: Take the LT of this IVP: (s*Y(s) - sy(0) - say'(0) - sy"(0) - y" (0)) - 2 (s2Y(s) - sy(0) - y'(0)) + Y($) = 0 so (s* – 252 + 1)Y(s) – 53 +52...
8.3. For the transfer function H(s) = find s2+2' (a) an uncontrollable realization, (b) an unobservable realization, (c) an uncontrollable and unobservable realization, (d) a minimal realization 8.3. For the transfer function H(s) = find s2+2' (a) an uncontrollable realization, (b) an unobservable realization, (c) an uncontrollable and unobservable realization, (d) a minimal realization
i am needing help with a b c o chris question thanks 1000 O(s) Gc(s) s(s2 110s 1250) Figure 2: Disc Drive System Block Diagram We will now try to design a compensator with the requirements that Overshoot 10% ii. Ts S 100ms II. eramp(oo) s 0.001 Do the following (you may use MATLAB at your leisure, but be sure to explain your logic for your design choices) a) Use MATLAB to draw the root locus when Gc K. Augment...
2) (120 pts) After successfully landing on the planet Mars, some scientists want to experimentally test the compressor mechanism given below. The compressor mechanism shown below is driven clockwise by a DC electric motor at a constant rate of 800 rpm, and accelerating at 1000 rad/s'. In the position shown, the cylinder pressure is 70 psi, and the plston weighs 2 lb. The coefficient of friction between the piston and the compressor cylinder is 0.5. The weight of all other...
Poles and Zeros For the transfer function given: 0.85 8-44.64 G(s) = 긁+0.83 12.00 Part A-Poles Find the system pole 8 Submit Part B-Poles Find the system pole s2 Submit Part C-Zeros Find the system zero Submit Part D-Type of Response Based on the locations af the poles and zeros, what will be the response to a unit step inpue? O Harmonic Oscillations (Marginally stable) Oscillatory motion with exponential decay tending to zero (stable O Critically damped exponential decay (stable)...