An emission spectrum is produced when

an excited electron releases energy as it relaxes back down to its ground state

an electron in the ground state absorbs energy and becomes excited

Which statement below is TRUE?

all light travels at the same speed

red light travels at a greater speed than microwaves

blue light travels faster than gamma rays

green light travels faster than UV light

Frequency, Wavelength and Planck's Constant

Authored by Charles Martinez

Chemistry

10th Grade

NGSS covered

Frequency, Wavelength and Planck's Constant

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16 questions

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MULTIPLE CHOICE QUESTION

2 mins • 1 pt

Red light has a wavelength of 675 nm. What is its frequency?

2.03x10¹¹ m

4.44x10¹⁴ Hz

4.44x10¹⁴ nm

2.03x10¹¹ Hz

Tags

NGSS.HS-PS4-1

MULTIPLE CHOICE QUESTION

2 mins • 1 pt

The frequency of violet light is 7.5x10¹⁴ Hz. What is its wavelength?

4.0x10^-7 m

4.0x10⁷ m

2.25x10²³m

2.25x10²³ Hz

Tags

NGSS.HS-PS4-1

MULTIPLE CHOICE QUESTION

30 sec • 1 pt

Which choice has the electromagnetic radiation in order of longest to shortest wavelength?

x-rays, ultra-violet rays, infrared radiation, and radiowaves.

radiowave, infrared radation, ultra-violet rays, and x-rays

radiowave, ultra-violet rays, infrared radation, and x-rays

x-rays, ultra-violet rays, infrared radation, and radiowave

Tags

NGSS.HS-PS4-1

MULTIPLE CHOICE QUESTION

30 sec • 1 pt

Which statement is true about the ground state (original energy level) and the excited state of an electron?

The ground state is the highest energy level of an electron.

The excited state is the lowest energy level of an electron.

The ground state is the lowest energy level of an electron.

When an electron goes from the ground state to an excited state it releases light energy.

Tags

NGSS.HS-PS1-2

MULTIPLE CHOICE QUESTION

30 sec • 1 pt

As the wavelength of light increases

the frequency increases.

the speed of light increases.

the energy decreases.

the intensity increases.

Tags

NGSS.HS-PS4-1

MULTIPLE CHOICE QUESTION

30 sec • 1 pt

Using the two equations E=hv and c=λv derive an equation expressing E in terms of h, c, and λ.

E=h/cλ

E=hc/λ

E=hcλ

E=h/cλ

Tags

NGSS.HS-PS4-1

NGSS.HS-PS4-3

MULTIPLE CHOICE QUESTION

30 sec • 1 pt

Which theory of light- the wave or particle theory- best explains the photoelectric effect

wave theory

particle theory

Tags

NGSS.HS-PS4-3

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Frequency, Wavelength and Planck's Constant

Red light has a wavelength of 675 nm. What is its frequency?

The frequency of violet light is 7.5x10¹⁴ Hz. What is its wavelength?

Which choice has the electromagnetic radiation in order of longest to shortest wavelength?

Which statement is true about the ground state (original energy level) and the excited state of an electron?

As the wavelength of light increases

Using the two equations E=hv and c=λv derive an equation expressing E in terms of h, c, and λ.

Which theory of light- the wave or particle theory- best explains the photoelectric effect

Which theory of light- the wave or particle theory- best explains the emission of electromagnetic radiation by an excited atom.

What is the speed of light?

What is Planck's Constant

Access all questions and much more by creating a free account

Similar Resources on Wayground

Popular Resources on Wayground

Discover more resources for Chemistry

Frequency, Wavelength and Planck's Constant

Red light has a wavelength of 675 nm. What is its frequency?

The frequency of violet light is 7.5x1014 Hz. What is its wavelength?

Which choice has the electromagnetic radiation in order of longest to shortest wavelength?

Which statement is true about the ground state (original energy level) and the excited state of an electron?

As the wavelength of light increases

Using the two equations E=hv and c=λv derive an equation expressing E in terms of h, c, and λ.

Which theory of light- the wave or particle theory- best explains the photoelectric effect

Which theory of light- the wave or particle theory- best explains the emission of electromagnetic radiation by an excited atom.

What is the speed of light?

What is Planck's Constant

Access all questions and much more by creating a free account

Similar Resources on Wayground

Popular Resources on Wayground

Discover more resources for Chemistry

The frequency of violet light is 7.5x10¹⁴ Hz. What is its wavelength?