2. Find l, 12 & Ps 4? ?? 20 V 12 V
12 4uvT 2 4 -8 Let u = . Find v in R, such that v(Simplify your answer.)
2 9 4Ω 3Ω 8 V 9 V Assume that this circuit has reached steady state (i.e, all the currents are constant). Find l, 12, ls la and Is. Also, find the charge on the capacitor.
2 9 4Ω 3Ω 8 V 9 V Assume that this circuit has reached steady state (i.e, all the currents are constant). Find l, 12, ls la and Is. Also, find the charge on the capacitor.
1.32 Find the power that is absorbed or supplied by the network elements in Fig. P1.32 8 V 2 A +21 12 V (+ 2 A 24 V 20 V I 2 A 2 A 2 A 2 12 V 2 A Figure P1.32
1.32 Find the power that is absorbed or supplied by the network elements in Fig. P1.32 8 V 2 A +21 12 V (+ 2 A 24 V 20 V I 2 A 2 A 2...
Beam AB with loading as shown
Find: a) V (x=3); b) M (x=3).
PS 14-2 Given: Beam AB with loading as shown. Find: a. V(x = 3) b. M(x=3) Figure: AKN 9kN LUN 9 KN plism * 3 * m-
If a vector field is defined as A = 5x 2(sinmx)a x, find div (A) for x-1. The density given by the density of ps 12 sin ø uC/m2, with 4 m radius circular disc shaped charge distribution is surrounded by S surface. What is the net flux that cuts S surface? Expression of a vector field in cylindrical coordinates is given by Zre-sza z Determine div(A) at (1 /2, π / 2,0)
If a vector field is defined as...
2. Find V. 10 Ω ΛΑ + 5Ω + 1 V + 12 Ω V. 3 Ω 3. Find V. 8ΚΩ ΛΑ 2 ΚΩ 4 ΚΩ 4 ΚΩ 9V 2V
* please answer step by
step.
Problem # 1 (20 pts.) A. Given For the circuit: 12 12 20V+ 2Ω B. Determine Step 1: Find the equivalent resistance seen by the 20 V source Step 2: Find the value of the current lo. Step 3: Find the power generated by lo as it passes thru the indicated 2 resistor
Problem # 1 (20 pts.) A. Given For the circuit: 12 12 20V+ 2Ω B. Determine Step 1: Find the equivalent...
Use source transformation to find I, in the given circuit where V = 20 V. 12 192 w h 422 4.2 + V- { 32 V The current 1, in the given circuit is
Viu 1.u For u = v _ -3 1, find viu, l|v||, 4, and a unit vector in the 2 1-1) direction opposite of u.