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WAVE OPTICS

283100 Light is an electromagnetic wave. Its speed in vacuum is given by the expression

1 \(\sqrt{\mu_0 \varepsilon_0}\)

2 \(\sqrt{\frac{\mu_0}{\varepsilon_0}}\)

3 \(\sqrt{\frac{\varepsilon_0}{\mu_0}}\)

4 \(\frac{1}{\sqrt{\mu_0 \varepsilon_0}}\)

J and K CET- 2001

WAVE OPTICS

283101 According to Huygen's wave theory, point on any wavefront may be regarded as

1 a photon

2 an electron

3 a new source of wave

4 neutron

J and K CET- 2000

WAVE OPTICS

283105 A parallel narrow-beam of light is falling normally on a glass sphere. It will come to a focus

1 Inside the sphere (except at its center)

2 On the surface of the sphere

3 Outside the sphere

4 exactly at the center of the sphere

J and K-CET-2015

WAVE OPTICS

283108 A plane mirror produces a magnification of

1 zero

2 -1

3 +1

4 between 0 and +1

JIPMER-2010

WAVE OPTICS

283100 Light is an electromagnetic wave. Its speed in vacuum is given by the expression

1 \(\sqrt{\mu_0 \varepsilon_0}\)

2 \(\sqrt{\frac{\mu_0}{\varepsilon_0}}\)

3 \(\sqrt{\frac{\varepsilon_0}{\mu_0}}\)

4 \(\frac{1}{\sqrt{\mu_0 \varepsilon_0}}\)

J and K CET- 2001

WAVE OPTICS

283101 According to Huygen's wave theory, point on any wavefront may be regarded as

1 a photon

2 an electron

3 a new source of wave

4 neutron

J and K CET- 2000

WAVE OPTICS

283105 A parallel narrow-beam of light is falling normally on a glass sphere. It will come to a focus

1 Inside the sphere (except at its center)

2 On the surface of the sphere

3 Outside the sphere

4 exactly at the center of the sphere

J and K-CET-2015

WAVE OPTICS

283108 A plane mirror produces a magnification of

1 zero

2 -1

3 +1

4 between 0 and +1

JIPMER-2010

WAVE OPTICS

283100 Light is an electromagnetic wave. Its speed in vacuum is given by the expression

1 \(\sqrt{\mu_0 \varepsilon_0}\)

2 \(\sqrt{\frac{\mu_0}{\varepsilon_0}}\)

3 \(\sqrt{\frac{\varepsilon_0}{\mu_0}}\)

4 \(\frac{1}{\sqrt{\mu_0 \varepsilon_0}}\)

J and K CET- 2001

WAVE OPTICS

283101 According to Huygen's wave theory, point on any wavefront may be regarded as

1 a photon

2 an electron

3 a new source of wave

4 neutron

J and K CET- 2000

WAVE OPTICS

283105 A parallel narrow-beam of light is falling normally on a glass sphere. It will come to a focus

1 Inside the sphere (except at its center)

2 On the surface of the sphere

3 Outside the sphere

4 exactly at the center of the sphere

J and K-CET-2015

WAVE OPTICS

283108 A plane mirror produces a magnification of

1 zero

2 -1

3 +1

4 between 0 and +1

JIPMER-2010

WAVE OPTICS

283100 Light is an electromagnetic wave. Its speed in vacuum is given by the expression

1 \(\sqrt{\mu_0 \varepsilon_0}\)

2 \(\sqrt{\frac{\mu_0}{\varepsilon_0}}\)

3 \(\sqrt{\frac{\varepsilon_0}{\mu_0}}\)

4 \(\frac{1}{\sqrt{\mu_0 \varepsilon_0}}\)

J and K CET- 2001

WAVE OPTICS

283101 According to Huygen's wave theory, point on any wavefront may be regarded as

1 a photon

2 an electron

3 a new source of wave

4 neutron

J and K CET- 2000

WAVE OPTICS

283105 A parallel narrow-beam of light is falling normally on a glass sphere. It will come to a focus

1 Inside the sphere (except at its center)

2 On the surface of the sphere

3 Outside the sphere

4 exactly at the center of the sphere

J and K-CET-2015

WAVE OPTICS

283108 A plane mirror produces a magnification of

1 zero

2 -1

3 +1

4 between 0 and +1

JIPMER-2010

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