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0.3M 201 B Given: VA = 2m/s down incline Find: VB, WAB Solve this using 2...
dynamics Given: VA = 2 m/s down incline 0.3m 60 Find VB 8 WAB velour * Angular Velouty of B Velocity of AB Solve this using two Different methods. 1) Vector 2) I.C. 2 methods 3) graphical
Giveni VA = 2 m/s down 0.3m incline 28 Find VB, JAS Usial a different methods solve this is vector 22 2) I.C. 3 graphical
(2) Find Va and Vb using nodal analysis. This is an example of a problem where it is important to follow the directions "using nodal analysis" to get full credit. Va Vb - ZAQ & 2 A ( 35 G 5A 84 5 A 34 (3) Find Va and Vb and Vc using nodal analysis. vo un vauva 24 v G+ 2 2400 ( + ) 30 V 30 (4) Find Va and Vb using nodal analysis. Note the 16i...
vA = 4.6 ft/s vB = 9.2 ft/s Solve for vD using relative motion scalar method. (NO CROSS PRODUCT) Thank you! B D 0.8 ft 45° C30° F А UA
33. For the circuit of Figure 4.17, find voltages Va and Vb. Given: R1 = 3.14K IT = 2.93mA a 3k b Required: voltages Va and Vb. 10k 3 10 V = 4k 3 320k Ry=5.185k2 I= 1.93mA 33. V. - 10 V, V- 5.263 V 7 answers Solution: B:35.185 Va = 10V B = 3.41K12 I, - 341-2.93mA Vo= 10V -(1.92-3x_) = 4.2v
Q9: Given i = y'a, +2.raya, +3åg, and points A (2m, Om, 0), B (2m, 4m, 0), C (0,4m.0). D(0,0,0) find the circulation of H around the closed path A + B + C + D A using two different methods. (20 pts)
3.) Given: The link shown is guided by two blocks at A and B, which move in the fixed slots. If the velocity of block A is 2 m/s downward, determine the velocity of block B at the instant 0 = 450 Note: The Velocity-Difference Equation is as follows: Yg - VA + VBIA - VA+WAB ®RBIA In addition, the following value for angular velocity is given: Ô = 7rad/s (fixed frame link 1) Find: (a) State the velocity of...
the hydraulic cylinder produces a horizontal velocity and accerleration at A of 2m/s and 3 m/s^2. When θ=40 determine te angular velocity and angular accerlation of bar OB. 200 mm 400 mm B 250 mm A VA, A vB = v^ + w X TB/A ag = a^ + a X PB/A – w²rB/A
Two objects (object A and object B) are moving with constant velocities (VA=30(m/s), VB=40(m/s)) in the same direction. Object B is behind object A. At the moment that the distance between them is 15(m) object A accelerates with aA = 1 (m/s^2) and object B decelerates with aB = -3(m/s). Are they going to hit each other? (show your work)
Please show the work PHYS 2 euie 1 Name: A block slides down an incline at an angle of 30.0°. At the bottom of the incline the block is travelling at 1.20 m/s. The coefficient between the block and the incline is 0.25. a. What are the energies at the start and end of the problem? b. Solve for the distance the block slide down the incline. (ans: 0.259 m) 3. 4. A solid ball with a mass of 4.00kg...