The current from the battery in the given circuit is ................ A

Q: The current from the battery in the given circuit is ................ $A$

a According to figure, Applying Kirchhoffs law in mash $(I)$ $2 i_1+6 i_1-6 i_2+8 i_1+0.5 i_1-15=0$ $16.5 i_1-6 i_2=15 \ldots . \text { (I) }$ Applying Kirchhoff's law in mash $(II)$ $7 i _2+ i _2+10 i _2+6 i _2-6 i _1=0$ $24 i _2-6 i _1=0$ $4 i _2- i _1=0$ $i _1=4 i _2 \ldots \ldots \text { (II) }$ After solving of equation $(I)$ and $(II)$ Then, $16.5 \times 4 i _2-6 i _2=15$ $66 i _2-6 i _2=15$ $60 i _2=15$ $i _2=\frac{1}{4} A$ Now put the value of $i_2$ in equation $(I)$ $i_1=4 i_2$ $i_1=4 \times \frac{1}{4}$ $i_1=1\,\,A$ Now, the current from the battery in the circuit is $1\,\,A$.

SECTION - A [PHYSICS - MCQ]

GSEB - English Medium

The current from the battery in the given circuit is ................ $A$

A$1$
B$1.5$
C$2$
D$3$

Medium

STD 11 Science
NEET
STD 12 - 3. current electricity
Physics

Download our app
and get started for free

Experience the future of education. Simply download our apps or reach out to us for more information. Let's shape the future of learning together!No signup needed.*

Download App

Similar Questions

1
The circuit shown here is used to compare the emf of two cells $E_1$ and $E_2 (E_1 > E_2)$. The null point is at $C$ when the galvanometer is connected to $E_1$. When the galvanometer is connected to $E_2$, the null point will be
View Solution
2
In the following circuit, $5$ $\Omega$ resistor develops $45$ $J/s$ due to current flowing through it. The power developed per second across $12$ $\Omega$ resistor is ............. $W$
View Solution
3
A $5\, V$ battery with internal resistance $2\, \Omega$ and a $2\,V$ battery internal resistance $1\, \Omega$ are connected to a $10\, \Omega$ resistor as shown in the figure. The current in the $10\, \Omega$ resistor is :-
View Solution
4
The lowest resistance which can be obtained by connecting $10$ resistors each of $1/10$ $ohm$ is
View Solution
5
In $n_e$ and $v_d$ be the number of electrons and drift velocity in a semiconductor. When the temperature is increased
View Solution
6
Ohm's law fails in
View Solution
7
In the following circuit, the battery has an emf of $2\mathrm{V}$ and an internal resistance of $\frac{2}{3}\ \Omega$. The power consumption in the entire circuit is$..... W.$
View Solution
8
Three resistances of magnitude $2$, $3$ and $5$ $ohm$ are connected in parallel to a battery of $10\, volts$ and of negligible resistance. The potential difference across $3\,\Omega $ resistance will be ............... $volts$
View Solution
9
Two light bulbs in the circuit have rating $A\,[24\ V, 48\,W]$ and $B\,[24\ V, 36\,W]$ as shown.
View Solution
10
A conducting wire of length $ l$ area of cross-section $A$ and electric resistivity $\rho$ is connected between the terminals of a battery. $A$ potential difference $V$ is developed between its ends, causing an electric current.If the length of the wire of the same material is doubled and the area of cross-section is halved, the resultant current would be
View Solution

Download our appand get started for free

Similar Questions

Download our app
and get started for free