Category: Chemistry

No.	Topics.	No.	Topics.
1.	ALCOHOLS AND PHENOLS	2.	ALDEHYDES & KETONES
3.	ALKYL HALIDES	4.	ATONTIC STRUCTURE
5.	CARBOXYLIC ACIDS	6.	CHEMICAL BONDING
7.	CHEMISTRY OF HYDROCARBONS	8.	CHETVI ICAL EQUI LIBIRIUM
9.	ELECTROCHE]VIISTRY	10.	FUNDAMENTAL CONCEPTS OF CHEMISTRY
11.	FUNDAMENTAL PRICIPLES OF ORGANIC CHEMISTRY	12.	GASES
13.	INDUSTRIAL CHEMISTRY	14.	LIQUIDS
15.	Macro Mulecule	16.	REACTION KINETICS
17.	S AND P BLOCK ELEMNETS	18.	SOLIDS
19.	THERMOCHEMISTRY & ENERGETICS OF CHEMICAL REACTIONS	20.	TRANSITION ELEMENTS

What is the change in wavelength in Compton scattering (??)?

??=h/(me?c)
??=h/(me?c)(1?cos?)
??=me?c/h
??=h?

The Compton effect is observed when X-rays interact with:

Heavy atoms.
Free electrons.
Protons.
Neutrons.

In Compton scattering, what happens to the wavelength of the scattered photon?

It decreases.
It increases.
It remains the same.
It depends on the intensity.

Compton scattering demonstrates that:

Light behaves only as a wave.
Photons have momentum.
Electrons are massless.
Energy is continuous.

The photoelectric effect cannot be explained by the wave theory of light because:

It explains quantized energy levels.
It predicts electron emission at any frequency if intensity is high enough.
It explains the existence of a threshold frequency.
It predicts instantaneous emission.

If the kinetic energy of the ejected electrons is 1.5 eV, and the incident photon energy is 4.0 eV, what is the work function of the metal?

2.5 eV
1.5 eV
4.0 eV
5.5 eV

In the previous question, if the work function was 3.5 eV, what would happen?

Electrons would be ejected with positive KE.
No electrons would be ejected.
The work function would decrease.
More photons would be needed.

Light with photon energy 3.0 eV strikes a metal with a work function of 2.0 eV. What is the maximum kinetic energy of the ejected electrons?

1.0 eV
2.0 eV
3.0 eV
5.0 eV

A metal has a work function of 2.0 eV. What is the threshold frequency for this metal?

4.83?1014 Hz
3.2?10?19 Hz
4.83?1013 Hz
2.41?1014 Hz

If the stopping potential is Vs?, and the charge of an electron is e, what is the maximum kinetic energy of the ejected electrons?

KEmax?=Vs?/e
KEmax?=e?Vs?
KEmax?=Vs?+e
KEmax?=Vs??e

What is the stopping potential in the photoelectric effect?

The voltage required to stop the incident photons.
The voltage required to stop the ejected electrons.
The voltage that increases the kinetic energy of electrons.
The voltage that determines the work function.

What happens to the kinetic energy of the ejected electrons if the frequency of light is increased (above threshold)?

It increases.
It decreases.
It remains the same.
It becomes zero.

If the frequency of incident light is below the threshold frequency, what happens?

Electrons are ejected with high kinetic energy.
No electrons are ejected, regardless of intensity.
More electrons are ejected if the intensity is high.
The work function changes.

What happens to the number of ejected electrons if the intensity of light is increased (keeping frequency above threshold)?

It increases.
It decreases.
It remains the same.
It becomes zero.

What is the relationship between incident photon energy (E), work function (?), and maximum kinetic energy (KEmax?) of ejected electrons?

E=?+KEmax?
E=??KEmax?
KEmax?=E+?
?=E+KEmax?

What happens to the kinetic energy of the ejected electrons if the intensity of light is increased (keeping frequency above threshold)?

It increases.
It decreases.
It remains the same.
It becomes zero.

What is the work function of a metal?

The maximum energy an electron can have.
The minimum energy required to eject an electron from the metal surface.
The kinetic energy of the ejected electrons.
The energy of the incident photons.

What is the threshold frequency in the photoelectric effect?

The minimum frequency of light required to eject an electron.
The maximum frequency of light that can eject an electron.
The frequency at which the kinetic energy of ejected electrons is zero.
The frequency that produces the most electrons.

In the photoelectric effect, what happens when light shines on a metal surface?

Electrons are always ejected.
Electrons are ejected only if the light frequency is above a threshold.
Protons are ejected.
The metal heats up without electron ejection.

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