c The deviation of light is maximum in case of convex mirror which provides a greater field of view for a convex mirror.
**NCERT-XIIIII-228**
TEST SERIES (PHYSICS FST)
266435
Out of the following options which one can be used to produce a propagating electromagnetic wave ?
1 A charge moving at constant velocity
2 A stationary charge
3 A chargeless particle
4 Aп accelerating charge
Explanation:
d
**PYQ**
TEST SERIES (PHYSICS FST)
266436
A satellite is moving around the earth. In order to make it move to infinity, its velocity must be increased by-
1 \(20 \%\)
2 it is impossible to do so
3 \(82.8 \%\)
4 \(41.4 \%\)
Explanation:
d For escaping: U + K.E. \(=0\) \[ \begin{aligned} & \Rightarrow V_e=\sqrt{\frac{2 G M}{r}} \& V_s=\sqrt{\frac{G M}{r}} \\ & \therefore \Delta V=\frac{V_e-V_s}{V_s} \times 100 \% \\ & =(\sqrt{2}-1) \times 100 \% \\ & =\Delta V=41.4 \% \end{aligned} \]
**NCERT-XI-I-135**
TEST SERIES (PHYSICS FST)
266437
A charge Q is placed at the corner of the cube. The combined electric flux through all the faces of cube is-
1 \(\frac{Q}{\epsilon_0}\)
2 \(\frac{Q}{6 \in_0}\)
3 \(\frac{Q}{8 \in_0}\)
4 \(\frac{Q}{3 \in_0}\)
Explanation:
c
**NCERT-XII-I-29**
TEST SERIES (PHYSICS FST)
266438
He gas is heated keeping the volume constant from \(\mathrm{T}_1\) to \(\mathrm{T}_2\) of it is heated is same amount from same state keeping the pressure constant by same amount the rise is temperature will be:
c The deviation of light is maximum in case of convex mirror which provides a greater field of view for a convex mirror.
**NCERT-XIIIII-228**
TEST SERIES (PHYSICS FST)
266435
Out of the following options which one can be used to produce a propagating electromagnetic wave ?
1 A charge moving at constant velocity
2 A stationary charge
3 A chargeless particle
4 Aп accelerating charge
Explanation:
d
**PYQ**
TEST SERIES (PHYSICS FST)
266436
A satellite is moving around the earth. In order to make it move to infinity, its velocity must be increased by-
1 \(20 \%\)
2 it is impossible to do so
3 \(82.8 \%\)
4 \(41.4 \%\)
Explanation:
d For escaping: U + K.E. \(=0\) \[ \begin{aligned} & \Rightarrow V_e=\sqrt{\frac{2 G M}{r}} \& V_s=\sqrt{\frac{G M}{r}} \\ & \therefore \Delta V=\frac{V_e-V_s}{V_s} \times 100 \% \\ & =(\sqrt{2}-1) \times 100 \% \\ & =\Delta V=41.4 \% \end{aligned} \]
**NCERT-XI-I-135**
TEST SERIES (PHYSICS FST)
266437
A charge Q is placed at the corner of the cube. The combined electric flux through all the faces of cube is-
1 \(\frac{Q}{\epsilon_0}\)
2 \(\frac{Q}{6 \in_0}\)
3 \(\frac{Q}{8 \in_0}\)
4 \(\frac{Q}{3 \in_0}\)
Explanation:
c
**NCERT-XII-I-29**
TEST SERIES (PHYSICS FST)
266438
He gas is heated keeping the volume constant from \(\mathrm{T}_1\) to \(\mathrm{T}_2\) of it is heated is same amount from same state keeping the pressure constant by same amount the rise is temperature will be:
c The deviation of light is maximum in case of convex mirror which provides a greater field of view for a convex mirror.
**NCERT-XIIIII-228**
TEST SERIES (PHYSICS FST)
266435
Out of the following options which one can be used to produce a propagating electromagnetic wave ?
1 A charge moving at constant velocity
2 A stationary charge
3 A chargeless particle
4 Aп accelerating charge
Explanation:
d
**PYQ**
TEST SERIES (PHYSICS FST)
266436
A satellite is moving around the earth. In order to make it move to infinity, its velocity must be increased by-
1 \(20 \%\)
2 it is impossible to do so
3 \(82.8 \%\)
4 \(41.4 \%\)
Explanation:
d For escaping: U + K.E. \(=0\) \[ \begin{aligned} & \Rightarrow V_e=\sqrt{\frac{2 G M}{r}} \& V_s=\sqrt{\frac{G M}{r}} \\ & \therefore \Delta V=\frac{V_e-V_s}{V_s} \times 100 \% \\ & =(\sqrt{2}-1) \times 100 \% \\ & =\Delta V=41.4 \% \end{aligned} \]
**NCERT-XI-I-135**
TEST SERIES (PHYSICS FST)
266437
A charge Q is placed at the corner of the cube. The combined electric flux through all the faces of cube is-
1 \(\frac{Q}{\epsilon_0}\)
2 \(\frac{Q}{6 \in_0}\)
3 \(\frac{Q}{8 \in_0}\)
4 \(\frac{Q}{3 \in_0}\)
Explanation:
c
**NCERT-XII-I-29**
TEST SERIES (PHYSICS FST)
266438
He gas is heated keeping the volume constant from \(\mathrm{T}_1\) to \(\mathrm{T}_2\) of it is heated is same amount from same state keeping the pressure constant by same amount the rise is temperature will be:
NEET Test Series from KOTA - 10 Papers In MS WORD
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TEST SERIES (PHYSICS FST)
266434
The field of view is maximum for:
1 plane mirror
2 concave mirror
3 convex mircor
4 cylindrical mirror
Explanation:
c The deviation of light is maximum in case of convex mirror which provides a greater field of view for a convex mirror.
**NCERT-XIIIII-228**
TEST SERIES (PHYSICS FST)
266435
Out of the following options which one can be used to produce a propagating electromagnetic wave ?
1 A charge moving at constant velocity
2 A stationary charge
3 A chargeless particle
4 Aп accelerating charge
Explanation:
d
**PYQ**
TEST SERIES (PHYSICS FST)
266436
A satellite is moving around the earth. In order to make it move to infinity, its velocity must be increased by-
1 \(20 \%\)
2 it is impossible to do so
3 \(82.8 \%\)
4 \(41.4 \%\)
Explanation:
d For escaping: U + K.E. \(=0\) \[ \begin{aligned} & \Rightarrow V_e=\sqrt{\frac{2 G M}{r}} \& V_s=\sqrt{\frac{G M}{r}} \\ & \therefore \Delta V=\frac{V_e-V_s}{V_s} \times 100 \% \\ & =(\sqrt{2}-1) \times 100 \% \\ & =\Delta V=41.4 \% \end{aligned} \]
**NCERT-XI-I-135**
TEST SERIES (PHYSICS FST)
266437
A charge Q is placed at the corner of the cube. The combined electric flux through all the faces of cube is-
1 \(\frac{Q}{\epsilon_0}\)
2 \(\frac{Q}{6 \in_0}\)
3 \(\frac{Q}{8 \in_0}\)
4 \(\frac{Q}{3 \in_0}\)
Explanation:
c
**NCERT-XII-I-29**
TEST SERIES (PHYSICS FST)
266438
He gas is heated keeping the volume constant from \(\mathrm{T}_1\) to \(\mathrm{T}_2\) of it is heated is same amount from same state keeping the pressure constant by same amount the rise is temperature will be:
c The deviation of light is maximum in case of convex mirror which provides a greater field of view for a convex mirror.
**NCERT-XIIIII-228**
TEST SERIES (PHYSICS FST)
266435
Out of the following options which one can be used to produce a propagating electromagnetic wave ?
1 A charge moving at constant velocity
2 A stationary charge
3 A chargeless particle
4 Aп accelerating charge
Explanation:
d
**PYQ**
TEST SERIES (PHYSICS FST)
266436
A satellite is moving around the earth. In order to make it move to infinity, its velocity must be increased by-
1 \(20 \%\)
2 it is impossible to do so
3 \(82.8 \%\)
4 \(41.4 \%\)
Explanation:
d For escaping: U + K.E. \(=0\) \[ \begin{aligned} & \Rightarrow V_e=\sqrt{\frac{2 G M}{r}} \& V_s=\sqrt{\frac{G M}{r}} \\ & \therefore \Delta V=\frac{V_e-V_s}{V_s} \times 100 \% \\ & =(\sqrt{2}-1) \times 100 \% \\ & =\Delta V=41.4 \% \end{aligned} \]
**NCERT-XI-I-135**
TEST SERIES (PHYSICS FST)
266437
A charge Q is placed at the corner of the cube. The combined electric flux through all the faces of cube is-
1 \(\frac{Q}{\epsilon_0}\)
2 \(\frac{Q}{6 \in_0}\)
3 \(\frac{Q}{8 \in_0}\)
4 \(\frac{Q}{3 \in_0}\)
Explanation:
c
**NCERT-XII-I-29**
TEST SERIES (PHYSICS FST)
266438
He gas is heated keeping the volume constant from \(\mathrm{T}_1\) to \(\mathrm{T}_2\) of it is heated is same amount from same state keeping the pressure constant by same amount the rise is temperature will be: