The image illustrates the electromagnetic spectrum, showing the relationship between different types of electromagnetic radiation, their wavelengths, and frequencies. **Wavelengths are measured in meters (m)** and are represented on a logarithmic scale ranging from \(10^{-11}\) to \(10^3\) meters. The spectrum is divided into several regions: - **Gamma rays:** \(10^{-11}\) to \(10^{-9}\) m- **X rays:** \(10^{-9}\) to \(10^{-7}\) m- **Ultraviolet:** \(10^{-8}\) to \(10^{-7}\) m- **Visible light:** \(10^{-7}\) to slightly above \(10^{-6}\) m- **Infrared:** \(10^{-6}\) to \(10^{-3}\) m- **Microwaves:** \(10^{-3}\) to \(10^{-1}\) m- **Radio frequency:** \(10^{-1}\) to \(10^3\) m**Frequencies are measured in inverse seconds (\(s^{-1}\))** and are also represented on a logarithmic scale, ranging from about \(10^{20}\) to \(10^4\) \(s^{-1}\). Frequencies decrease as wavelengths increase across the spectrum.The **visible region** is highlighted, spanning wavelengths from approximately 400 to 750 nanometers (nm). This range contains the colors of light visible to the human eye, depicted in a gradient from violet (around 400 nm) through blue, green, yellow, and orange to red (around 750 nm). Arrows indicate the general direction of increasing frequency and decreasing wavelength along the spectrum. **Calculate the energy of a photon of wavelength \(\lambda_2 = 0.152 \text{ nm}\).****Express your answer in joules to three significant figures.**Equation input field: \( E = \) [Input box] JButtons included:- Equation editor button- Greek letter selector button- Undo and redo buttons- Clear input button- Help button**Interaction options:**- Submit button- Request Answer link**Instructions for Use:**Input your calculation for the energy of the photon in the provided box using the available equation editor tools. Ensure your answer is expressed in joules with three significant figures. Press "Submit" to finalize your answer, or use "Request Answer" if you need assistance.

Answered: Image /qna-images/answer/0d37de70-3236-401b-84f6-0c601024a3e1.jpg

Answered: Calculate the energy of a photon of…

Calculate the energy of a photon of wavelength A2 = 0.152 nm. Express your answer in joules to three significant figures. ? E = J

Chemistry

10th Edition

ISBN:9781305957404

Author:Steven S. Zumdahl, Susan A. Zumdahl, Donald J. DeCoste

Publisher:Steven S. Zumdahl, Susan A. Zumdahl, Donald J. DeCoste

Chapter1: Chemical Foundations

Section: Chapter Questions

Problem 1RQ: Define and explain the differences between the following terms. a. law and theory b. theory and...

See similar textbooks

Related questions

Q: Enormous numbers of microwave photons are needed to warm macroscopic samples of matter. A portion of…

A: The energy required is given by, E=m.C.∆T where m is the mass, C is the specific heat and ∆T is the…

Q: What is AE for the transition of an electron from n=9 to n = 5 in a hydrogen atom? What is the…

A: Answer:Here:

Q: The scattering of sunlight by the mixture of gas molecules in air results in the blue color of the…

A: Concept based on the calculation of energy of a single photon of blue light with a given frequency.…

Q: A microwave oven operates at 2.20 GHz. What is the wavelength of the radiation produced by this…

A: The relation between frequecy(in Hz) and wavelength is given by the formula - frequency = speed of…

Q: What is the λ (in m) of an electromagnetic wave that has a frequency of 5.68 x 107 Hz? Enter a…

A: Answer: We know that, speed of light = frequency * wavelength of the electromagnetic weight…

Q: The mass of a golf ball is 45.9 gg . If it leaves the tee with a speed of 74.0 m/sm/s , what is its…

Q: Enormous numbers of microwave photons are needed to warm macroscopic samples of matter. A portion of…

Q: Calculate the wavelength (in nanometers ) of a photon emitted by a hy drogen atom when its electron…

A: Whenever an electron absorbs energy it gets excited to higher energy state from lower energy state.…

Q: Ek =

Q: A detector sensitive to a single wavelength of light collects 4.3 x 1025 photons over a period of 3…

Q: Given the relationship between wavelength, frequency and the speed of light, calculate the frequncy…

Q: cientific notation rounded to three significant figures.

A: Given, Wavelength (L) = 220 nm = 220×10-9 m Energy(E) = hc/L = 6.626×10-34 × 3 ×108/220×10-9 =…

Q: e de Broglie wavelength (in r Enter r rour ansrer in scienti

Q: What is the value of n₂ for an electron that emits a photon of wavelength 93.14 nm when it returns…

Q: What is the energy of a photon of frequency 4.8 × 1014 Hz

A: Energy can be calculated from frequency using the relation : E = hv h = Plank's constant v =…

Q: An argon ion laser puts out 4.8 W of continuous power at a of 532 nm. The diameter of the laser beam…

A: we have to calculate the number of photons that travel through the pinhole per second

Q: A NAVY system operates with a frequency of 76 Hz. What is the wavelength of this radiation in…

A: The energy is related to frequency of radiation as, E = hf where E = energy of radiation in J h =…

Q: How fast must a 139.3−g baseball travel in order to have a de Broglie wavelength that is equal to…

A: de Broglie's wavelength is given by the formula λ = hmv λ = wavelength h = Planks constant =…

Q: Enter your answer in the provided box. Calculate the de Broglie wavelength (in nm) of a hydrogen…

A: Given, mass of hydrogen atom =1.674×10-27kg speed =1510cms

Q: What is the wavelength in meters observed with a frequency of (8.4x10^15)? Answer with 2 significant…

Q: Calculate the energy of a photon of electromagnetic radiation at each of the following frequencies.…

A: Since the energy of photon is related to its frequency as E = hf where E = energy h = plank's…

Q: German physicist Werner Heisenberg related the uncertainty of an object's position (Ax) to the…

A: ∆x can be calculated using the given formula by putting variables values.

Q: Calculate the de Broglie wavelength (in picometers) of a hydrogen atom traveling at 440 m/sm/s .…

Q: The energy of light photons varies with wavelength. Calculate the energy per mole of photons for…

A: The energy of light photons is calculated using the below formula.

Q: An electron in a hydrogen atom transitions from n = 1 to n = 6. What is the wavelength of…

A: Given information is: Electron in a hydrogen is undergoing transition from n=1 to n=6 Initial energy…

Q: When an excited electron in a hydrogen atom falls from ?=7 to ?=2, a photon of ultraviolet light is…

A: According to RYDBERG FORMULA: 1λ=RHZ21n12-1n22 Rydberg constant, R=1.097 x 107 m-1 For the…

Q: Determine the wavelength (in nm) of the photon associated with the transition in which the electron…

A: Here we are required to find the wavelength for transition of electron from level n=1 to n=4

Q: Suppose that photons of blue light (430 nm) are used to locate the position of a 2.80-g Ping-Pong…

Q: Compare the energy of a photon of wavelength A1 = 3.2 µum with that of wavelength A2 = 0.152 nm.…

A: Given: Note: 1μm = 10-6 m 1nm = 10-9 m Wavelength of photon (λ1) = 3.2 μm = 3.2 × 10-6 m…

Q: What is the frequency of a photon with a=n energy of 2.00 x 10-16 J

A: Given: Energy = 2.00 x 10-16 J

Q: Calculate the frequency of the light emitted when an electron in a hydrogen atom makes each of the…

Q: A photon has a frequency of 4.8× 109Hz.b.(8) Calculate the energy (in joules) of this photon.

A: Energy of a photon is related to its frequency with the help of the following formula :…

Q: To resolve an object in an electron microscope, the wavelength of the electrons must be close to the…

Q: Assuming that the smallest measurable wavelength in an experiment is 0.430 fm, what is the maximum…

A: In this question, we have to find out the correct answer of given problem by the help of the…

Q: Consider light at 375 nm. What is the energy of one mole of photons of light with a wavelength of…

A: Since you have posted multiple unrelated questions, we are entitled to answer the first only.

Q: Be sure to answer all parts. Calculate the difference in energy (in joules) between a photon withλ…

A: GivenWavelength of 1st photon = 697nmWavelength of 2nd photon = 347 nm

Concept explainers

Atomic Structure

The basic structure of an atom is defined as the component-level of atomic structure of an atom. Precisely speaking an atom consists of three major subatomic particles which are protons, neutrons, and electrons. Many theories have been stated for explaining the structure of an atom.

Shape of the D Orbital

Shapes of orbitals are an approximate representation of boundaries in space for finding electrons occupied in that respective orbital. D orbitals are known to have a clover leaf shape or dumbbell inside where electrons can be found.

Question

The image illustrates the electromagnetic spectrum, showing the relationship between different types of electromagnetic radiation, their wavelengths, and frequencies.

**Wavelengths are measured in meters (m)** and are represented on a logarithmic scale ranging from \(10^{-11}\) to \(10^3\) meters. The spectrum is divided into several regions:

- **Gamma rays:** \(10^{-11}\) to \(10^{-9}\) m
- **X rays:** \(10^{-9}\) to \(10^{-7}\) m
- **Ultraviolet:** \(10^{-8}\) to \(10^{-7}\) m
- **Visible light:** \(10^{-7}\) to slightly above \(10^{-6}\) m
- **Infrared:** \(10^{-6}\) to \(10^{-3}\) m
- **Microwaves:** \(10^{-3}\) to \(10^{-1}\) m
- **Radio frequency:** \(10^{-1}\) to \(10^3\) m

**Frequencies are measured in inverse seconds (\(s^{-1}\))** and are also represented on a logarithmic scale, ranging from about \(10^{20}\) to \(10^4\) \(s^{-1}\). Frequencies decrease as wavelengths increase across the spectrum.

The **visible region** is highlighted, spanning wavelengths from approximately 400 to 750 nanometers (nm). This range contains the colors of light visible to the human eye, depicted in a gradient from violet (around 400 nm) through blue, green, yellow, and orange to red (around 750 nm).

Arrows indicate the general direction of increasing frequency and decreasing wavelength along the spectrum.

**Calculate the energy of a photon of wavelength \(\lambda_2 = 0.152 \text{ nm}\).**

**Express your answer in joules to three significant figures.**

Equation input field: \( E = \) [Input box] J

Buttons included:
- Equation editor button
- Greek letter selector button
- Undo and redo buttons
- Clear input button
- Help button

**Interaction options:**
- Submit button
- Request Answer link

**Instructions for Use:**
Input your calculation for the energy of the photon in the provided box using the available equation editor tools. Ensure your answer is expressed in joules with three significant figures. Press "Submit" to finalize your answer, or use "Request Answer" if you need assistance.

Expert Solution

This question has been solved!

Explore an expertly crafted, step-by-step solution for a thorough understanding of key concepts.

This is a popular solution!

SEE SOLUTION Check out a sample Q&A here

Step 1

VIEW

Step 2

VIEW

Trending now

This is a popular solution!

Step by step

Solved in 2 steps with 2 images

SEE SOLUTION Check out a sample Q&A here

Knowledge Booster

Learn more about

Need a deep-dive on the concept behind this application? Look no further. Learn more about this topic, chemistry and related others by exploring similar questions and additional content below.

Similar questions

A sample of excited atoms lie 3.022 × 10-19 J above the ground state. Determine the emission wavelength of these atoms. 2 = nm
Calculate the wavelength, in nm, of the photon emitted when the hydrogen atom undergoes a transition from n = 5 to n = 3. Express your answer in decimal notation rounded to four significant figures.
An electron in a hydrogen atom jumps from n=7 to n = 5 and emits a photon. What is the wavelength of the emitted light in the unit of nanometer? R=1.097×107 m-1.
A hydrogen atom undergoes a transition from the n = 8 level. Calculate the shortest possible wavelength (in units of nm) of electromagnetic radiation emitted by the hydrogen atom. Your answer must be in units of nanometers. c = v) E = hv E = -(Rµ/n²) X= (h/mu) AE = -RH ((1/n;3) – (1/n²)] (1/A) = (Rµ/hc) [(1/n}) – (1/n²)] %3D c = 2.9979 x 108 m · s-1 h = 6.6260 x 10-34 j.s RH = 2.1798 x 10–18, 1 pm 1x 10 12 m 1 nm = 1x 10-9 m 1 Á = 1x 10-10 m %3D %3D NA = 6.0221 x 1023/ mol
how do I find the wavelength of a photon that has an energy of 2.84 x 10-19 J? (h = 6.63 x 10-34 J.s, E=hν, c=λν, c = 3.00 x 108 m/s)
How fast must a 132 g baseball travel in order to have a de Broglie wavelength that is equal to that of an x-ray photon with A = 100. pm? 4.0 m/s
Thermal neutrons are neutrons that move at speeds comparable to those of air molecules at room temperature. These neutrons are most effective in initiating a nuclear chain reaction among 235U isotopes. Calculate the wavelength (in nm) associated with a beam of neutrons moving at 7.00 × 102 m/s (mass of a neutron = 1.675 × 10-27 kg).
Enormous numbers of microwave photons are needed to warm macroscopic samples of matter. A portion of soup containing 445 g of water is heated in a microwave oven from 20.0°C to 98.0°C, with radiation of wavelength 1.55x10−2 m. How many photons are absorbed by the water in the soup?
Calculate the energy of a photon with a frequency of 8.24 × 1014 Hz.
A 100. W lamp emits red light of wavelength 680 nm. How many photons can the lamp generate in 26 seconds? (1W = 1J/s) Provide your answer in E- notation rounded to 2 significant figures.