In the circuit , gives in the figure currents in different branches and value of one resistor are shown . Then potential at point B with respect to the point A is : View Solution In the circuit shown, current (i
In Exercises, consider the circuit in the figure. The currents I_1, I_2, and I_3, in amperes, are given by the solution of the system of linear equations(cases) 2I_1+4I_3=E_1 I_2+4I_3=E_2I_1+I_2-I_3=0 (cases)...
In the circuit shown, the currents i1 and i2 are View Solution In the circuit shown in figure : R=10Ω,L=√310H,R2=20Ω and C=√32mF. Current in L−R1 circuit is I1 in C−R1 circuit is I2 and the main current is I Phase difference between I1 and I2 is View Solu...
Consider the circuit in the figure. The currents I1, I2, and I3 in amperes are given by the solution of the system of linear equations.4I1+8I3=22I2+8I3=6I1+I2-I3=0.Use Cramer's Rule to find the three currents.a12R4R220d R38+2V3+E2C 相关知识点: 试题来源: 解析 I_1=...
Answer to: For the circuit given in the figure, Find the power expended in the resistors R1, R2, and R3. By signing up, you'll get thousands of...
Answer to: Consider the circuit shown in the figure. Find the current through the 6.0 ohms resistor. By signing up, you'll get thousands of...
The error current, ie, is(5)Combining Equation 4 and Equation 5 produces the following result for the closed-loop TIA gain of the circuit in Figure 3:(6)The loop gain is evident in Equation 6 and is given by(7)The loop gain contains two poles, a low-frequency pole at s = p and...
结果1 题目 (a) Find the currents i and i in the circuit in Fig. P2.10.(b) Find the voltage v.(c)Verify that the total power developed equals the total power dissipated.150V+30010A20A-V 相关知识点: 试题来源: 解析 a 反馈 收藏 ...
Active responses to stressors involve motor planning, execution, and feedback. Here we identify an insular cortex to BNST (insula→BNST) circuit recruited during restraint stress-induced active struggling that modulates affective behavior. We demonstrate
The sum of the currents entering a junction in an electrical circuit is always equal to the sum of the currents leaving the junctionWhy is this?A It is a consequence of the conservation of chargeB It is a consequence of the conservation of electromotive forceC It is a consequence of the ...