357290 The figure shown below is a metre bridge set up with null deflection in the galvanometer. The value of the unknown resistance \(R\) is

357291 In Meter bridge or Wheatstone bridge for measurement of resistance, the known and the unknown resistances are interchanged. The error so removed is

357292 Match the entries of Column I with their correct mathematical expressions in Column II
Column I
Column II
A
Balanced condition of wheatstone bridge
P
\(\frac{{{R_1}}}{{{R_2}}} = \frac{{{R_3}}}{{{R_4}}}\)
B
Comparison of emf of two cells
Q
\(\frac{R}{S} = \frac{{{l_1}}}{{100 - {l_1}}}\)
C
Determination of internal resistance of a cells
R
\(\frac{{{E_1}}}{{{E_2}}} = \frac{{{l_1}}}{{{l_2}}}\)
D
Determination of unknown resistance
S
\(r = R\left( {\frac{{{l_1}}}{{{l_2}}} - 1} \right)\)

357293 A cell can be balanced against 110 \(cm\) and 100 \(cm\) of potentiometer wire, respectively with and without being short circuited through a resistance of \(10\Omega \). Its internal resistance is

357290 The figure shown below is a metre bridge set up with null deflection in the galvanometer. The value of the unknown resistance \(R\) is

357291 In Meter bridge or Wheatstone bridge for measurement of resistance, the known and the unknown resistances are interchanged. The error so removed is

357292 Match the entries of Column I with their correct mathematical expressions in Column II
Column I
Column II
A
Balanced condition of wheatstone bridge
P
\(\frac{{{R_1}}}{{{R_2}}} = \frac{{{R_3}}}{{{R_4}}}\)
B
Comparison of emf of two cells
Q
\(\frac{R}{S} = \frac{{{l_1}}}{{100 - {l_1}}}\)
C
Determination of internal resistance of a cells
R
\(\frac{{{E_1}}}{{{E_2}}} = \frac{{{l_1}}}{{{l_2}}}\)
D
Determination of unknown resistance
S
\(r = R\left( {\frac{{{l_1}}}{{{l_2}}} - 1} \right)\)

357293 A cell can be balanced against 110 \(cm\) and 100 \(cm\) of potentiometer wire, respectively with and without being short circuited through a resistance of \(10\Omega \). Its internal resistance is

357290 The figure shown below is a metre bridge set up with null deflection in the galvanometer. The value of the unknown resistance \(R\) is

357291 In Meter bridge or Wheatstone bridge for measurement of resistance, the known and the unknown resistances are interchanged. The error so removed is

357292 Match the entries of Column I with their correct mathematical expressions in Column II
Column I
Column II
A
Balanced condition of wheatstone bridge
P
\(\frac{{{R_1}}}{{{R_2}}} = \frac{{{R_3}}}{{{R_4}}}\)
B
Comparison of emf of two cells
Q
\(\frac{R}{S} = \frac{{{l_1}}}{{100 - {l_1}}}\)
C
Determination of internal resistance of a cells
R
\(\frac{{{E_1}}}{{{E_2}}} = \frac{{{l_1}}}{{{l_2}}}\)
D
Determination of unknown resistance
S
\(r = R\left( {\frac{{{l_1}}}{{{l_2}}} - 1} \right)\)

357293 A cell can be balanced against 110 \(cm\) and 100 \(cm\) of potentiometer wire, respectively with and without being short circuited through a resistance of \(10\Omega \). Its internal resistance is

357290 The figure shown below is a metre bridge set up with null deflection in the galvanometer. The value of the unknown resistance \(R\) is

357291 In Meter bridge or Wheatstone bridge for measurement of resistance, the known and the unknown resistances are interchanged. The error so removed is

357292 Match the entries of Column I with their correct mathematical expressions in Column II
Column I
Column II
A
Balanced condition of wheatstone bridge
P
\(\frac{{{R_1}}}{{{R_2}}} = \frac{{{R_3}}}{{{R_4}}}\)
B
Comparison of emf of two cells
Q
\(\frac{R}{S} = \frac{{{l_1}}}{{100 - {l_1}}}\)
C
Determination of internal resistance of a cells
R
\(\frac{{{E_1}}}{{{E_2}}} = \frac{{{l_1}}}{{{l_2}}}\)
D
Determination of unknown resistance
S
\(r = R\left( {\frac{{{l_1}}}{{{l_2}}} - 1} \right)\)

357293 A cell can be balanced against 110 \(cm\) and 100 \(cm\) of potentiometer wire, respectively with and without being short circuited through a resistance of \(10\Omega \). Its internal resistance is