362976 A moving coil voltmeter is generally used to measure the potential difference across a conductor of resistance ' \(r\) ' carrying a current \(i\). The resistance of voltmeter is \(R\). For more correct measurement of potential difference

362977 For designing a voltmeter of range \(50\;V\) and an ammeter of range \(10\;mA\) using a galvanometer which has a coil of resistance \(54 \Omega\) showing a full scale deflection for \(1\;mA\) as in figure.

(A) For voltmeter \(R \approx 50k\Omega \)
(B) For ammeter \(r \approx 0.2\Omega \)
(C) For ammeter \(r = 6\Omega \)
(D) For voltmeter \(R \approx 5k\Omega \)
(E) For voltmeter \(R \approx 500\Omega \)
Choose the correct answer from the options given below.

362978 A voltmeter of range \(2\,\;V\) and resistance \(300 \Omega\) cannot be converted into ammeter of range

362979 The coil of galvanometer consists of 100 turns and effective area of 1 square \(cm\). The restoring couple is \({10^{ - 8}}\;N - m{\rm{/}}rad\). The magnetic field between the pole pieces is \(5\,T\). The current sensitivity of this galvanometer will be

362980 The radial magnetic field is used in a suspended coil galvanometer to provide

362976 A moving coil voltmeter is generally used to measure the potential difference across a conductor of resistance ' \(r\) ' carrying a current \(i\). The resistance of voltmeter is \(R\). For more correct measurement of potential difference

362977 For designing a voltmeter of range \(50\;V\) and an ammeter of range \(10\;mA\) using a galvanometer which has a coil of resistance \(54 \Omega\) showing a full scale deflection for \(1\;mA\) as in figure.

(A) For voltmeter \(R \approx 50k\Omega \)
(B) For ammeter \(r \approx 0.2\Omega \)
(C) For ammeter \(r = 6\Omega \)
(D) For voltmeter \(R \approx 5k\Omega \)
(E) For voltmeter \(R \approx 500\Omega \)
Choose the correct answer from the options given below.

362978 A voltmeter of range \(2\,\;V\) and resistance \(300 \Omega\) cannot be converted into ammeter of range

362979 The coil of galvanometer consists of 100 turns and effective area of 1 square \(cm\). The restoring couple is \({10^{ - 8}}\;N - m{\rm{/}}rad\). The magnetic field between the pole pieces is \(5\,T\). The current sensitivity of this galvanometer will be

362980 The radial magnetic field is used in a suspended coil galvanometer to provide

362976 A moving coil voltmeter is generally used to measure the potential difference across a conductor of resistance ' \(r\) ' carrying a current \(i\). The resistance of voltmeter is \(R\). For more correct measurement of potential difference

362977 For designing a voltmeter of range \(50\;V\) and an ammeter of range \(10\;mA\) using a galvanometer which has a coil of resistance \(54 \Omega\) showing a full scale deflection for \(1\;mA\) as in figure.

(A) For voltmeter \(R \approx 50k\Omega \)
(B) For ammeter \(r \approx 0.2\Omega \)
(C) For ammeter \(r = 6\Omega \)
(D) For voltmeter \(R \approx 5k\Omega \)
(E) For voltmeter \(R \approx 500\Omega \)
Choose the correct answer from the options given below.

362978 A voltmeter of range \(2\,\;V\) and resistance \(300 \Omega\) cannot be converted into ammeter of range

362979 The coil of galvanometer consists of 100 turns and effective area of 1 square \(cm\). The restoring couple is \({10^{ - 8}}\;N - m{\rm{/}}rad\). The magnetic field between the pole pieces is \(5\,T\). The current sensitivity of this galvanometer will be

362980 The radial magnetic field is used in a suspended coil galvanometer to provide

362976 A moving coil voltmeter is generally used to measure the potential difference across a conductor of resistance ' \(r\) ' carrying a current \(i\). The resistance of voltmeter is \(R\). For more correct measurement of potential difference

362977 For designing a voltmeter of range \(50\;V\) and an ammeter of range \(10\;mA\) using a galvanometer which has a coil of resistance \(54 \Omega\) showing a full scale deflection for \(1\;mA\) as in figure.

(A) For voltmeter \(R \approx 50k\Omega \)
(B) For ammeter \(r \approx 0.2\Omega \)
(C) For ammeter \(r = 6\Omega \)
(D) For voltmeter \(R \approx 5k\Omega \)
(E) For voltmeter \(R \approx 500\Omega \)
Choose the correct answer from the options given below.

362978 A voltmeter of range \(2\,\;V\) and resistance \(300 \Omega\) cannot be converted into ammeter of range

362979 The coil of galvanometer consists of 100 turns and effective area of 1 square \(cm\). The restoring couple is \({10^{ - 8}}\;N - m{\rm{/}}rad\). The magnetic field between the pole pieces is \(5\,T\). The current sensitivity of this galvanometer will be

362980 The radial magnetic field is used in a suspended coil galvanometer to provide

362976 A moving coil voltmeter is generally used to measure the potential difference across a conductor of resistance ' \(r\) ' carrying a current \(i\). The resistance of voltmeter is \(R\). For more correct measurement of potential difference

362977 For designing a voltmeter of range \(50\;V\) and an ammeter of range \(10\;mA\) using a galvanometer which has a coil of resistance \(54 \Omega\) showing a full scale deflection for \(1\;mA\) as in figure.

(A) For voltmeter \(R \approx 50k\Omega \)
(B) For ammeter \(r \approx 0.2\Omega \)
(C) For ammeter \(r = 6\Omega \)
(D) For voltmeter \(R \approx 5k\Omega \)
(E) For voltmeter \(R \approx 500\Omega \)
Choose the correct answer from the options given below.

362978 A voltmeter of range \(2\,\;V\) and resistance \(300 \Omega\) cannot be converted into ammeter of range

362979 The coil of galvanometer consists of 100 turns and effective area of 1 square \(cm\). The restoring couple is \({10^{ - 8}}\;N - m{\rm{/}}rad\). The magnetic field between the pole pieces is \(5\,T\). The current sensitivity of this galvanometer will be

362980 The radial magnetic field is used in a suspended coil galvanometer to provide