2. Determine Va in Figure 2. 2k 6k M 10v - 4k 1000 lx Figure 2
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
(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...
620° V Find the two node voltages VA and VB and the output voltage V. in the circuit shown. i20 -1327 (120° A VO
Please answer both parts.
6. Find each of the node voltages Va Vb 10 5 20 80 40 25 Va Vb 7. Using any analysis, what will the voltmeter read? 10 20 s (t 20 80
The input VA (W) is a signal expressed with frequency dependency. Recall that the impedance of an inductor is Z= jwL. Note both resistors have the same value in the plot below. Please determine the transfer function of this circuit (i.e., Vo (W)/VA (W) ), and find out the 3dB frequency wo. reier VA in
also the given answers might not be correct so don't
mind them
— HOV NAI 2K 385k Ž 4K rok to Vout W & 20k lou OX oßiß2 = 100, VA = 00 a) Find the overall Voltage gaina out = 3909 W b) find the current gain Contain, Rin and Rout νς € Repeat exercise a, if the source vs has an internal resistance of ik and ro=50kn for each transistor.
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
Solve for the angular velocity of link AB in rad/s В), 1.5 m VB w A = = 30 VA = 3 m/s
could you also show the
formulas used to solve the question.
Find VA and VB. ot 6.72 m/s Vtot 23.09 26.5° 22.5°