## Emission of Light from Hydrogen and Metal Atoms### Hydrogen Emission LinesThis table presents data on the emission lines from hydrogen atoms, indicating the scale readings, corresponding wavelengths according to a calibration curve, and their assigned electronic transitions.| Line | Scale Reading | Wavelength (from calibration curve) | Assigned Transition ||------|---------------|-------------------------------------|---------------------|| 1 | 660 | 656 nm | 3 → 2 || 2 | 480 | 486 nm | 4 → 2 || 3 | 430 | 430 nm | 5 → 2 || 4 | ? | 410 nm | 6 → 2 |### Explanation- **Line 1:** The scale reading is 660, corresponding to a wavelength of 656 nm. This emission line represents the transition from the third to the second energy level in a hydrogen atom. - **Line 2:** With a scale reading of 480, the wavelength is 486 nm, representing a transition from the fourth to the second energy level. - **Line 3:** The scale reading is 430, yielding a wavelength of 430 nm. This transition occurs from the fifth to the second energy level. - **Line 4:** No scale reading is provided, but the wavelength is 410 nm, indicating a transition from the sixth to the second energy level.

A question based on quantitative analysis, which is to be accomplished.

Answered: Hydrogen Emission Lines Wavelength…

Hydrogen Emission Lines Wavelength Scale Reading (from calibration curve) Assigned Transition Line 660 656 nm 3-72 486 nm4-72 ךכל 480 430 430nm 6-22 410 nm 3.

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: Draw a picture of a wave with a wavelength of 200nm on a number line like the one illustrated below.…

A: Wavelength is defined as distance between two consecutive crest or trough .

Q: What is the wavelength of a photon with an energy of 2.4 × 10−¹6 J? What region of the EM spectrum…

Q: What is the wavelength of a light with a frequency of 7.26 * 10¹4 Hz? What region of the EM spectrum…

Q: Name two types of line sources that are commonly used in atomic absorption spectroscopy. Suggest two…

A: In atomic absorption spectroscopy, the concentration or the amount of elements are measured. In this…

Q: Which of the electron transitions shown below will emit the highest energy light? A B C n=1 D n=2…

A: Given electron transition S.No. ni(Higher Energy State) nF(Lower Energy State) A 3 2 B 4 2…

Q: range the following electron transitions 6 -> 2, 5 -> 2, 4 -> 2, and 3 -> 2: shortest wavelength…

Q: Determine the anomaly in the arrangement of electronic configuration in silver, Ag, and explain the…

Q: Calculate the energy of the photons emitted by the AM radio station. ΑΣφ ?

Q: Part A The ground state wave function of Rb36+ is T-1/2(Z/ao)3/2eZr/do, where Z is the nuclear…

A: The objective of this question is to calculate the position of the maximum in the radial…

Q: What is the wavelength of a light with a frequency of 7.26 * 10¹4 Hz? What region of the EM spectrum…

Q: Calculate the wavelength, in nm, associated with the transition given below. ninitial = 5 and…

A: • WE know, 1λ= RH1n2dinal-1n2initial λ → wavelength. RH → Rydberg…

Q: What are the possible magnetic quantum numbers (m2) associated with each indicated value of f? When…

A: l is the azimuthal quantum number . The relation between azimuthal quantum number (l) and magnetic…

Q: Calculate the wavelength Electrons (me =9.10938 x10^-28g) moving at 8.09x10^7 m/s in an electron…

A: Given, the mass of electron =9.10938×10-28 gram…

Q: What is the wavelength (in nm) of the photon absorbed for a transition of an electron from initial 3…

Q: The lithium concentration in serum taken from a patient being treated with lithium for…

A: The standard addition equation is, [Xi][Sf]+[Xf]=IxIs+xwhere, Xi = concentration of the analyte in…

Q: Wavelength (3) in m 10-11 Gemma rays 1020 10.9 10-7 Ultra violet Xrays 1018 400 nm 1016 T Which is…

A: Electromagnetic waves

Q: concentration in serum taken from a patient being treated with litnium for ressive illneSS wa sing…

A: Concentration is the measure of how much of a given substance is mixed with another substance.

Q: One of the lines in the Balmer series of the H atom emission spectrum is at 410 nm. It results from…

A: Recall the following relation for Balmer series 1λ=R×Z2×122-1n2Here,wavelengthλ=410 nm…

Q: Which of the following spectroscopic notations are not allowed? (a) 5s1 (b) 1d1 (c) 4s3 (d) 3p7 (e)…

A: Important spectroscopic notations are: 1) Principal Quantum No (n) The value of n =1,2,3..... 2)…

Q: This is from a study guide for a final, not a graded assignment.

Q: One of the lines in the Balmer series of the H atom emission spectrum is at 410 nm. It results from…

A: Electromagnetic radiations Electromagnetic radiations are the collection of different forms of…

Q: why the line corresponding to ninitial=7 was not visible in the emission spectrum for hydrogen

A: Line corresponding to n(initial )=7 is not visible in emission spectrum of hydrogen . for that we…

Q: INTERPRETATION OF PART A Calculate the energy of light (k) mol-1) for each of the colours of light…

Q: 7 11 8 9 11 11 12 13 14 15 16 17 18 ✓ ✓ 19 20 21 ✓ -- 22 23 24 25 26 27 10 < Light was measured to…

Q: Based on the guidance in Section 2 of experiment EMS, determine the experimental Rydberg constant,…

A: The experimental Rydberg constant is1.09223×107m−1Explanation:Step 1:Wavelength is103nmEmission line…

Q: 4-41. Calculate the frequency of the first five lines in the Lyman series of hydrogen (Figure 4.25).…

A: The given question is related to calculating the frequency of first five spectral lines in the Lyman…

Q: Determine the energy of a photon with a wavelength of 304 nm.

A: The relationship between wavelength(λ) and energy(E) is : => E = hc/λ where, where, E is the…

Q: How much energy, in joules per mole (J/mol), does a photon in the microwave region of the EM…

A: In the given question, frequency is given and we have to find the energy in J/mol.

Q: Examples Line emission spectrum of H violet n6-n2 blue ng-> nz green n4 n2 Yed ng n2 Calculate the…

A: Bohr's model of atom Bohr's theory explains the concept of quantization of electronic energy.…

Q: Part A Using the equation E = (hcRH) (-³) = Submit na = (-2.18 x 10-¹8 J) calculate the energy of an…

A: The objective of the question is to calculate the energy of an electron in a hydrogen atom when the…

Q: Calculate in wavenumbers (cm-1) separation energy between n = 1 and n = 2 levels for an electron in…

Q: A nanocrystallaine sample of CdSe emits an orange glow that has a wavelength of 570 nm. What is the…

A: Concept: Light upon transmission have certain wavelength and the frequency. Using the wavelength or…

Q: Which statement(s) is(are) true regarding the emission spectrum below? Select all that apply. n =00…

A: An emission line is observed when a photon is released due to movement of electron from higher…

Q: Which of the following has the highest value of Amax in the ultraviolet-visible spectrum? 01 2 3

Q: Useful constants: N= 6.022 x 103 mol"; k= 1.381 x 10-23 J K-'; h=6.626 x 10- Js; c = 2.998 - 10*…

A: the answer is hand written attached

Q: 4-58. Explain the physical significance of the state by n = ∞ and E= 0 for a hydrogen atom.…

A: In the quantum mechanical description of the hydrogen atom, electrons are subject to a…

Q: Which one of the following electron transitions would result in the loss of energy from a H atom?…

Q: A. В. C. D. n-00 n-00 n-00 n-00 n-4 n-4 n-4 n-4 n=3 n=3 n-3 n-3 n-2 n-2 n-2 V n-2 V n-1 n-1 Classify…

A: For an electron to transition to a higher energy level, it must absorb energy.

Q: Calculate the wavelength of a proton moving at 23% of the speed of light. Leave your answer in m-…

A: De-Broglie relationship:h is planck's constant=6.626 x 10-34J.sm is mass.v is velocity.λ is…

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: In the hydrogen atomic spectrum, 102.6nm corresponds to n=1 state to which other n=? state. What is…

Q: wavelength 200 nm. (McQuarie 1-19) 4. A ground-state hydrogen atom absorbs a photon of light that…

Q: Calculate the energy, frequency, and wavelength when the following electronic transitions occur in…

Q: 2. The Balmer series of hydrogen emission spectrum is shown below. Wnm Continuous spectrum Figure 1

A: The emission spectrum of the atomic hydrogen atom has been divided into a number of spectral series.…

Q: Calculate the frequency of a 495-570 nm of wavelength 514.5 nm

A: In this question, we want to determine the frequency of a wavelength is equal to 514.5nm lie between…

Q: 18.) Which value: n (Principal), l (Angular), ml (Magnetic) or ms (Spin) would you change to make…

A: n=2 valid l= 1 valid m= -1 valid ms= 0 not valid Spin value is either +1/2 or -1/2 but can't be 0 so…

Question

## Emission of Light from Hydrogen and Metal Atoms

### Hydrogen Emission Lines

This table presents data on the emission lines from hydrogen atoms, indicating the scale readings, corresponding wavelengths according to a calibration curve, and their assigned electronic transitions.

| Line | Scale Reading | Wavelength (from calibration curve) | Assigned Transition |
|------|---------------|-------------------------------------|---------------------|
| 1 | 660 | 656 nm | 3 → 2 |
| 2 | 480 | 486 nm | 4 → 2 |
| 3 | 430 | 430 nm | 5 → 2 |
| 4 | ? | 410 nm | 6 → 2 |

### Explanation

- **Line 1:** The scale reading is 660, corresponding to a wavelength of 656 nm. This emission line represents the transition from the third to the second energy level in a hydrogen atom.

- **Line 2:** With a scale reading of 480, the wavelength is 486 nm, representing a transition from the fourth to the second energy level.

- **Line 3:** The scale reading is 430, yielding a wavelength of 430 nm. This transition occurs from the fifth to the second energy level.

- **Line 4:** No scale reading is provided, but the wavelength is 410 nm, indicating a transition from the sixth to the second energy level.

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

Given

VIEW

Answer

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

Similar questions

Knowing that for potassium the photoelectric effect occurs when lambda < 552 nm. Determine: a) The threshold frequency, b) the work function in kJ/mol, c) the kinetic energy of the emitted electrons when lambda = 200 nm Data: me = 9.11x10-31 kg; c = 2.988x108 m/s; h = 6.626x10-34 J s; NA = 6.022x1023 mol-1
When robidium ions are heated to a high temp, two lines are observed in its line spectrum at wavelength a. 7.9*10^-7 and b 4.2*10^-7 m. What are the frequences of 2 lines. What color do we see when we heat a robdium compound
Hi! Could I get this answered quickly? Thanks :)
The lithium concentration in serum taken from a patient using flame emission spectroscopy. A sample of the serum gave a reading of 178 units for the intensity of the 671 nm red emission line. Then, 1.00 mL of a 11.8 mM lithium standard was added to 9.00 mL of serum. This spiked serum gave an intensity reading of 5.30×102 units at the 671 nm emission line. What is the original concentration of Li+ in the serum?
Which of the following expressions correctly gives the energy of a mole of photons with wavelength X? O E = NA A ΟΕ O E = Ο Ε = ΟΕ || = 27 ΝΑ hc ん入 hc NA C
Determine the wavelength of the line in the hydrogen atomic emmission spectrum corrsponding to the ninitial=4 to nfinal=3 transition.
三 CHM 1045 michael View Available Hint(s) tolal energy
(1) Why don't we observe the transition from na > ni for the hydrogen atom in the line spectrum? Be specific. 4000 300 3000 2500 2000 1500 1000 s00 300 350 400 450 800 550 700 750 800 Wavelength anometera) (2) An emission spectrum for a red laser pointer is shown above. Calculate the energy associated with the red laser pointer. (3) Draw an emission spectrum to represent light emitted by a blue laser. (qunao Ag
When a red light with a wavelength of 670 nm shines on a piece of metal, an electron is ejected. What is the energy of the photon absorbed by the electron to overcome the attractive forces? 4.7 x 10-35 J -37 4.3 x 10³ J 3.3 x 10-¹⁹ 19 3.0 x 10-¹⁹ J 2.9 x 10-³7 J Below is an emission spectrum with two specific lines labelled 1(orange) and 2 (green). red A Which energy level diagram best represents the labelled electronic transitions? 1 2 1 B 1 2 1 C 2 2 D 1 2 violet O A
1-60 x 1019 J/el 5. The longest wavelength lines in the series (n, 1) → (4, 0) in potassium have wavelengths 7699-0 Å , 7664-9 Å , 4047-2 Å respectively. Construct the relevant part of the energy level diagram ; and calculate the splitting between the levels with the seae values of n and 1. but different i. and 4044-1 Å CS Scanned with CamScanner
4. For the n=6 to n=2 transition: nodneu n or En ors s0 A in nm = A in Å = %3D Color of corresponding line in the hydrogen spectrum: Show calculations.
3. Based on the wavelengths you noted during the lab exercise, report the color and calculated frequencies and energies of any three lines (transitions) of your choice from the helium and argon spectra. 550nm Im =5