You are given several identical resistances each of value R = 10,Omega and each capable of carrying maximum current of 1, ampere. It is required

Q: You are given several identical resistances each of value $R = 10\,\Omega $ and each capable of carrying maximum current of $1\, ampere$. It is required to make a suitable combination of these resistances to produce a resistance of $5\,\Omega $ which can carry a current of $4\, amperes$. The minimum number of resistances of the type $R$ that will be required for this job

c Suppose n resistors are used for the required job. Suppose equivalent resistance of the combination is $R$' and according to energy conservation it's current rating is $i'.$ Energy consumed by the combination $= n×$ (Energy consumed by each resistance) $⇒$ $i{'^2}R' = n \times {i^2}R$$⇒$ $n = {\left( {\frac{{i'}}{i}} \right)^2} \times \left( {\frac{{R'}}{R}} \right) = {\left( {\frac{4}{1}} \right)^2} \times \left( {\frac{5}{{10}}} \right) = 8$

SECTION - A [PHYSICS MCQ]

GSEB - English Medium

You are given several identical resistances each of value $R = 10\,\Omega $ and each capable of carrying maximum current of $1\, ampere$. It is required to make a suitable combination of these resistances to produce a resistance of $5\,\Omega $ which can carry a current of $4\, amperes$. The minimum number of resistances of the type $R$ that will be required for this job

A$4$
B$10$
C$8$
D$20$

AIPMT 1990, Medium

STD 11 Science
JEE
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
When a resistor of $11 \,\Omega$ is connected in series with an electric cell, the current flowing in it is $0.5\, A$. Instead, when a resistor of $5 \,\Omega$ is connected to the same electric cell in series, the current increases by $0.4\, A$. The internal resistance of the cell is ................ $\Omega$
View Solution
2
The figure shows a network of resistances in which the point $A$ is earthed. The current through the $4\,\Omega$ resistor is
View Solution
3
Current measured by the ammeter $(A)$ in the reported circuit when no current flows through $10\,\Omega$ resistance. will be________$A$
View Solution
4
Two light bulbs in the circuit have rating $A\,[24\ V, 48\,W]$ and $B\,[24\ V, 36\,W]$ as shown.
View Solution
5
Emf is most closely related to
View Solution
6
The measurement of ammeter in the following circuit is ................... $A$ (Assuming ideal ammeter)
View Solution
7
A $60\, watt$ bulb carries a current of $0.5\, amp$. The total charge passing through it in $1$ hour is ............ $coulomb$
View Solution
8
The figure shows a circuit having eight resistances of $1 \Omega$ each, labelled $R_1$ to $R_8$, and two ideal batteries with voltages $\varepsilon_1=12 V$ and $\varepsilon_2=6 V$.

Which of the following statement($s$) is(are) correct?

$(A)$ The magnitude of current flowing through $R_1$ is $7.2 A$.

$(B)$ The magnitude of current flowing through $R_2$ is $1.2 A$.

$(C)$ The magnitude of current flowing through $R_3$ is $4.8 A$.

$(D)$ The magnitude of current flowing through $R_5$ is $2.4 A$.
View Solution
9
$62.5 \times {10^{18}}$ electrons per second are flowing through a wire of area of cross-section $0.1\,{m^2}$, the value of current flowing will be ............ $A$
View Solution
10
A battery is charged at a potential of $15\, V$ for $8$ hours when the current flowing is $10\, A$. The battery on discharge supplies a current of $5\, A$ for $15$ hours. The mean terminal voltage during discharge is $14\, V$. The "Watt-hour" efficiency of the battery is .............. $\%$
View Solution

Download our appand get started for free

Similar Questions

Download our app
and get started for free