160575
When \(C, R\) and \(L\) represent general identity, then dimensions of \(C^2 R L\) are:
1 \(\left[M^0 L^0 T^3 A^0\right]\)
2 \([\mathrm{MLTA}]\)
3 None of these
4 \(\left[M L^2 T^{-3} A^2\right]\)
Explanation:
\(\left[M^0 L^0 T^3 A^0\right]\)
NCERT -157
1 RBTS PAPER
160576
The area of acceleration time graph gives :
1 Displacment
2 Distance
3 Velocity
4 Change in velocity
Explanation:
The area of acceleration time graph gives change in velocity.
NCERT -73
1 RBTS PAPER
160565
Measurement of a physical quantity is essentially the
1 process of comparing with a standard using an instrument
2 process of observing the physical quantity
3 process of taking readings on an instrument
4 process of subdividing the physical quantity
Explanation:
The Measurement of a given quantity is essentially an act or result of comparison between a quantity whose magnitude (amount) is unknown, with a similar quantity whose magnitude (amount) is known, the latter quantity being called a Standard.
NCERT-I-1
1 RBTS PAPER
160566
A verner callipers has \(1 \mathbf{~ m m}\) marks on the main scale. It has \(\mathbf{2 0}\) equal divisons on the vernier scale which match with 16 main scale divisions. For this vernier callipers, the least count is :
160567
In an experiment four quantities \(a, b, c\) and \(d\) are measured with percentage error \(1 \%, 2 \%, 3 \%\) and \(4 \%\) respectively. Quantity \(P\) is calculated as follows: \(P=\frac{a^3 b^2}{c d}\) \(\%\) error in \(\mathbf{P}\) is
160575
When \(C, R\) and \(L\) represent general identity, then dimensions of \(C^2 R L\) are:
1 \(\left[M^0 L^0 T^3 A^0\right]\)
2 \([\mathrm{MLTA}]\)
3 None of these
4 \(\left[M L^2 T^{-3} A^2\right]\)
Explanation:
\(\left[M^0 L^0 T^3 A^0\right]\)
NCERT -157
1 RBTS PAPER
160576
The area of acceleration time graph gives :
1 Displacment
2 Distance
3 Velocity
4 Change in velocity
Explanation:
The area of acceleration time graph gives change in velocity.
NCERT -73
1 RBTS PAPER
160565
Measurement of a physical quantity is essentially the
1 process of comparing with a standard using an instrument
2 process of observing the physical quantity
3 process of taking readings on an instrument
4 process of subdividing the physical quantity
Explanation:
The Measurement of a given quantity is essentially an act or result of comparison between a quantity whose magnitude (amount) is unknown, with a similar quantity whose magnitude (amount) is known, the latter quantity being called a Standard.
NCERT-I-1
1 RBTS PAPER
160566
A verner callipers has \(1 \mathbf{~ m m}\) marks on the main scale. It has \(\mathbf{2 0}\) equal divisons on the vernier scale which match with 16 main scale divisions. For this vernier callipers, the least count is :
160567
In an experiment four quantities \(a, b, c\) and \(d\) are measured with percentage error \(1 \%, 2 \%, 3 \%\) and \(4 \%\) respectively. Quantity \(P\) is calculated as follows: \(P=\frac{a^3 b^2}{c d}\) \(\%\) error in \(\mathbf{P}\) is
160575
When \(C, R\) and \(L\) represent general identity, then dimensions of \(C^2 R L\) are:
1 \(\left[M^0 L^0 T^3 A^0\right]\)
2 \([\mathrm{MLTA}]\)
3 None of these
4 \(\left[M L^2 T^{-3} A^2\right]\)
Explanation:
\(\left[M^0 L^0 T^3 A^0\right]\)
NCERT -157
1 RBTS PAPER
160576
The area of acceleration time graph gives :
1 Displacment
2 Distance
3 Velocity
4 Change in velocity
Explanation:
The area of acceleration time graph gives change in velocity.
NCERT -73
1 RBTS PAPER
160565
Measurement of a physical quantity is essentially the
1 process of comparing with a standard using an instrument
2 process of observing the physical quantity
3 process of taking readings on an instrument
4 process of subdividing the physical quantity
Explanation:
The Measurement of a given quantity is essentially an act or result of comparison between a quantity whose magnitude (amount) is unknown, with a similar quantity whose magnitude (amount) is known, the latter quantity being called a Standard.
NCERT-I-1
1 RBTS PAPER
160566
A verner callipers has \(1 \mathbf{~ m m}\) marks on the main scale. It has \(\mathbf{2 0}\) equal divisons on the vernier scale which match with 16 main scale divisions. For this vernier callipers, the least count is :
160567
In an experiment four quantities \(a, b, c\) and \(d\) are measured with percentage error \(1 \%, 2 \%, 3 \%\) and \(4 \%\) respectively. Quantity \(P\) is calculated as follows: \(P=\frac{a^3 b^2}{c d}\) \(\%\) error in \(\mathbf{P}\) is
160575
When \(C, R\) and \(L\) represent general identity, then dimensions of \(C^2 R L\) are:
1 \(\left[M^0 L^0 T^3 A^0\right]\)
2 \([\mathrm{MLTA}]\)
3 None of these
4 \(\left[M L^2 T^{-3} A^2\right]\)
Explanation:
\(\left[M^0 L^0 T^3 A^0\right]\)
NCERT -157
1 RBTS PAPER
160576
The area of acceleration time graph gives :
1 Displacment
2 Distance
3 Velocity
4 Change in velocity
Explanation:
The area of acceleration time graph gives change in velocity.
NCERT -73
1 RBTS PAPER
160565
Measurement of a physical quantity is essentially the
1 process of comparing with a standard using an instrument
2 process of observing the physical quantity
3 process of taking readings on an instrument
4 process of subdividing the physical quantity
Explanation:
The Measurement of a given quantity is essentially an act or result of comparison between a quantity whose magnitude (amount) is unknown, with a similar quantity whose magnitude (amount) is known, the latter quantity being called a Standard.
NCERT-I-1
1 RBTS PAPER
160566
A verner callipers has \(1 \mathbf{~ m m}\) marks on the main scale. It has \(\mathbf{2 0}\) equal divisons on the vernier scale which match with 16 main scale divisions. For this vernier callipers, the least count is :
160567
In an experiment four quantities \(a, b, c\) and \(d\) are measured with percentage error \(1 \%, 2 \%, 3 \%\) and \(4 \%\) respectively. Quantity \(P\) is calculated as follows: \(P=\frac{a^3 b^2}{c d}\) \(\%\) error in \(\mathbf{P}\) is
160575
When \(C, R\) and \(L\) represent general identity, then dimensions of \(C^2 R L\) are:
1 \(\left[M^0 L^0 T^3 A^0\right]\)
2 \([\mathrm{MLTA}]\)
3 None of these
4 \(\left[M L^2 T^{-3} A^2\right]\)
Explanation:
\(\left[M^0 L^0 T^3 A^0\right]\)
NCERT -157
1 RBTS PAPER
160576
The area of acceleration time graph gives :
1 Displacment
2 Distance
3 Velocity
4 Change in velocity
Explanation:
The area of acceleration time graph gives change in velocity.
NCERT -73
1 RBTS PAPER
160565
Measurement of a physical quantity is essentially the
1 process of comparing with a standard using an instrument
2 process of observing the physical quantity
3 process of taking readings on an instrument
4 process of subdividing the physical quantity
Explanation:
The Measurement of a given quantity is essentially an act or result of comparison between a quantity whose magnitude (amount) is unknown, with a similar quantity whose magnitude (amount) is known, the latter quantity being called a Standard.
NCERT-I-1
1 RBTS PAPER
160566
A verner callipers has \(1 \mathbf{~ m m}\) marks on the main scale. It has \(\mathbf{2 0}\) equal divisons on the vernier scale which match with 16 main scale divisions. For this vernier callipers, the least count is :
160567
In an experiment four quantities \(a, b, c\) and \(d\) are measured with percentage error \(1 \%, 2 \%, 3 \%\) and \(4 \%\) respectively. Quantity \(P\) is calculated as follows: \(P=\frac{a^3 b^2}{c d}\) \(\%\) error in \(\mathbf{P}\) is
