Calculate the velocity of a star moving relative to the earth if you observe a wavelength of 91.0 nm for ionized hydrogen capturing an electron directly into the lowest orbital (that is, a ni = ∞ to nf = 1 , or a Lyman series transition).

Calculate the velocity of a star moving relative to the earth if you observe a wavelength of 91.0 nm for ionized hydrogen capturing an electron directly into the lowest orbital (that is, a ni = ∞ to nf = 1 , or a Lyman series transition).

Glencoe Physics: Principles and Problems, Student Edition

1st Edition

ISBN:9780078807213

Author:Paul W. Zitzewitz

Publisher:Paul W. Zitzewitz

Chapter28: The Atom

Section28.1: The Bohr Model Of The Atom

Problem 6PP

See similar textbooks

Related questions

Q: What must be the radius of a star of mass 2 x 10^30 kg so that the escape speed from this star is…

A: Answer:- Given Mass of star(M) = 2 × 1030 kg Escape speed (V) = 2 × 108 m/s Gravitational…

Q: Calculate the energy emitted by a blackbody at 1000°C per square meter?

Q: why is G considered to be the same throughout the universe?

Q: Should it be possible in principle for a photon to circle a very massive star?

Q: Observations of neutrinos emitted by the supernova SN1987a place an upper limit of 20 eV on the rest…

A: The value of Lorentz factor is,

Q: A distant star has a peak wavelength of 0.00000077. What is the temperature of that star?

A: The temperature of the star can be given by T=2.898×10-3mKλpeak

Q: What wavelength photon would be required to ionizea hydrogen atom in the ground state and give the…

A: Given that : K.E. = 11.5 eV Ionization energy (I.E.) to transition a photon from ground to excited…

Q: Given an object is receding from Earth at v=20(10^3)km x s^-1, Calculate its redshift z?

A: Answer:- Given V = 20 × 103 km/s Speed of light (C) = 3 × 105 km/s Red shift(z) = ? We know…

Q: what would its period (in s) be if no mass were ejected and a sphere of uniform density can model HD…

Q: C6M.9 Astar with mass M and radius R collides with another star of massM and radius R, and coalesce…

A: Given information:Mass of star “A” (Ma) = MRadius of star A (Ra) = RAngular velocity of star A =…

Q: A supernova explosion of a 2.00 x 1031 kg star produces 1.00 x 1044 J of energy. What is the ratio…

A: The expression for find change in mass is ∆m=Ec2 Substitute values in the above equation…

Q: What is the temperature of a star that appears most intense at a wavelength of 829 nm? First…

Q: To what radius would the Sun have to be contracted for its escape speed to equal the speed of light?…

Q: How does a gravitational red-shift differ from a Doppler red shift?

Q: During most of its lifetime, a star maintains an equilibrium size in which the inward force of…

A: Angular momentum is a vector quantity that means it has both magnitudes as well as direction to it.…

Q: 17. For the following observables, tell whether the would be represented by the magnitude or the…

A: The quantity which does not depend on direction is called as scalar quantity. The quantity which…

Q: A star’s spectrum emits more radiation with a wavelength of 690.0 nm than with any other wavelength.…

A: Wavelength = 690 nm Radius of star = 7.20 × 108 m It is given as a condition that the star is 9.78…

Q: The hypervelocity star S5HVS1 has a redshifted Hβ line (rest wavelength of 486.135 nm) observed at…

Q: Calculate the surface temperature of the star (in K), if the radius of the star is 9,7x10 m and the…

A: Given values: Radius of the star, R=97×108 mMass lost by the star per second, m=54×1010 kg

Q: In Exercise 12.4 of the book, University Physics 15th edition (see end of the Chapter 22 section),…

Q: When observed from Earth, the wavelengths of light emitted by a star are shifted toward the red end…

A: Introduction :- Here it is given that a star is emitting light and this light is being received by…

Q: At the end of its life, a star with a mass of two times the Sun’s mass is expected to collapse,…

A: The expression for the radius is,

Q: Calculate the surface temperature of the star (in K), if the radius of the star is 4,3x10° m and the…

A: Given : radius of star R = 4.3 x 108 m mass lost per second = 26 x 1010 kg…

Q: Assume that the laws of Newtonian mechanics and Newtonian gravity still hold for a neutron star,…

A: Assume that the laws of Newtonian mechanics and Newtonian gravity still hold for a neutron star,…

Q: A supernova explosion of a 2.00×1031 kg star produces 1.00×1044 kg of energy. (a) How many kilograms…

Q: A galaxy moving away from the earth has a speed of 0.0100c . What wavelength do we observe for an ni…

Q: The 6563 Å Hα line emitted by hydrogen in a star is found to be redshifted by 15 Å. Estimate the…

Q: The Sun and all Main Sequence stars derive their luminosity by fusing hydrogen to helium; in…

Q: The spectrum of a sun-like star is monitored and it is noticed that a spectral absorption line of…

A: Given: Wavelength λ of the spectral line is 589 nm. Amplitude of shift in the spectal line ∆λ is ±1…

Q: What would be the diameter (of the event horizon) of a black hole with the same mass as Jupiter?

A: Blackhole is a hypothetical concept that contains everything in the universe within a very small…

Q: Calculate λmax for blackbody radiation for (a) liquid helium (4.2 K), (b) room temperature (293 K),…

Q: After the Sun exhausts its nuclear fuel, its ultimate fate may be to collapse to a white dwarf…

Q: The wavelength of a particular ultraviolet radiation from hydrogen atoms is 1.216 × 10-7 m.…

A: Given data: Wavelength of a particular ultraviolet radiation, λ0=1.216×10-7m Speed of the galaxy,…

Q: The star HD 69830's mass is 1.7 ✕ 1030 kg, its radius is 6.3 ✕ 105 km, and it has a rotational…

Q: How did Edwin Hubble use the concepts of the Doppler Effect to determine the speed/direction of…

Q: What is the event horizon radius [m] for the sun if it were to collapse to a Schwarzschild black…

A: Given: Mass of sun , Msun = 1.99 x 1030 Kg

Q: Why does the Doppler effect only find the radial velocity?

A: Required : Why does the Doppler effect only find the radial velocity?

Q: Assume that the radiation coming from Andromeda is all due to solar-like stars (MV, = 4.83). How…

A: Required : Approximate number of stars in Andromeda galaxy.

Concept explainers

Stellar evolution

We may see thousands of stars in the dark sky. Our universe consists of billions of stars. Stars may appear tiny to us but they are huge balls of gasses. Sun is a star of average size. Some stars are even a thousand times larger than the sun. The stars do not exist forever they have a certain lifetime. The life span of the sun is about 10 billion years. The star undergoes various changes during its lifetime, this process is called stellar evolution. The structure of the sun-like star is shown below.

Red Shift

It is an astronomical phenomenon. In this phenomenon, increase in wavelength with corresponding decrease in photon energy and frequency of radiation of light. It is the displacement of spectrum of any kind of astronomical object to the longer wavelengths (red) side.

Question

Calculate the velocity of a star moving relative to the earth if you observe a wavelength of 91.0 nm for ionized hydrogen capturing an electron directly into the lowest orbital (that is, a n_i = ∞ to n_f = 1 , or a Lyman series transition).

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

Step 3

VIEW

Trending now

This is a popular solution!

Step by step

Solved in 3 steps with 4 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, physics and related others by exploring similar questions and additional content below.

Similar questions

[06/04, 2:13 PM] +91 93814 04108: The minimum amount of energy required to energize a particle from its ground state to first excited state is 1*10^4 eV. One photon source P1 corresponding to X ray wavelength 1nm and another photon source p2 corresponding to visible light wavelength 500 nm are available. As a physicist, which one of these photons would you choose for energizing the atom? [06/04, 2:14 PM] +91 93814 04108: Draw a neat diagram to show the procedure and show your calculations in detail.
How much energy is required to cause an electron in hydrogen to move from the n = 1 state to the n = 2 state? (b) If the electrons gain this energy by collision between hydrogen atoms in a high - temperature gas, find the minimum temperature of the heated hydrogen gas. The thermal energy of the heated atoms is given by 3kBT/2, where kB is the Boltzmann constant.
suppose we detect red photons at 102.57 nm emitted by electrons dropping from the n=3 to the n= 1 orbital in hydrogen. If the temperature of the cloud doubled, what would be the wavelength photo of the photons emitted by the transition?
One cubic meter of atomic hydrogen at 0°C and atmospheric pressure contains approximately 2.70 x 10 atoms. The first excited state of the hydrogen atom has an energy of 10.2 eV above the lowest energy level, called the ground state. Use the Boltzmann factor to find the number of atoms in the first excited state at 0°C and at 10 000°C
Estimate the thermally Doppler-broadened line widths for the hydrogen Lya, C III, O VI, and Mg X lines are given below; use the temperatures provided. Take the masses of H, c, O, and Mg to be 1 u, 12 u, 16 u, and 24 u, respectively. The 121.6-nm Lyman-alpha (Lya) emission line of hydrogen (n=2 →n =1) is produced at the top of the chromosphere at 20,000 K, the ClII 97.7-nm line originates at a level where the temperature is 90,000 K, the 103.2-nm line of O VI occurs at 300,000 K, and Mg X creates a 62.5-nm line at 1.4 x 106 K.
You are studying a very distant quasar and are trying to determine how far away it is. The quasar is a very bright point-like light source, and there is only one relevant distance measuring technique applicable to objects at such a great distance. From a spectra of the quasar, you observe that it's Lyman alpha emission line (which would be at 121.6 nm in a laboratory sample of Hydrogen) is at 130 nm. What is the distance to this quasar in units of Mpc. [Hint: Think about what distance measuring technique we use for the very farthest objects in the universe. You will need to look up a special constant (who's value is uncertain) to complete this problem. The answer accounts for the possible range of uncertainty in the quantity you need to look up.]
The solar corona is so hot that most atoms in it are ionized.Consider a hydrogen-like atom in the corona that has only a single electron. Construct a problem in which you calculate selected spectral energies and wavelengths of the Lyman, Balmer, or other series of this atom that could be used to identify its presence in a very hot gas. You will need to choose the atomic number of the atom, identify the element, and choose which spectral lines to consider.
In solid helium the spacing between atoms is about 3Å . Helium contains 2 protons and 2 neutrons, so the mass of a helium atom is 6.6×10−27 kg. What is the smallest possible energy of a helium atom in solid helium? What temperature (in Kelvin) does this energy correspond with? (Boltzmann's constant is kb=1.38×10−23 J/K
If the electrons gain this energy by collision between hydrogen atoms in a high temperature gas, find the minimum temperature of the heated hydrogen gas. The thermal energy of the heated atoms is given by 3 kB T 2, where the Boltzmann constant is 1.38 × 10-23 J/K. Answer in units of K.
Doubly ionized lithium (Li++) emits a photon after transitioning from the n = 3 excited state directly back to the ground state. A) Calculate the mass of the lithium ion. (Atomic mass = 6.015123 u; electron mass = 5.485799 x 10-4 u) Express your answer in unified atomic mass units and to four significant figures. B) After the emission of the photon, the ion recoils. Calculate the recoil speed. Express your answer to three significant figures in meters/second.
20.) Twinkle Twinkle. A stable star of radius R has a mass density profile ρ(r)=α(1−r/R). Here, "stable" means that the star doesn't collapse under its own gravity. If the internal pressure at the core is provided solely by the radiation of photons, calculate the temperature at the core. Assume the star is a perfect black body and treat photons as a classical ideal gas. Use R=7×105 km and α=3 g/cm. Round your answer to the nearest kilokelvin. Using advanced olympiad physics concepts please answer carefully
Determine the classical orbital elements (a, e, i, 2, w, f,) for (1) L, = (8800.00 ) km and v, = (0.943736 i-6.31469 k) km/s and %3D %3D (ii). r, = (3818.14 i+8148.07 j+504.90 k) km, r, = (3533.28 i +8280.22 j +525.91k) km r =(-3969.52 î + 8512.67 j + 821.75 k) km. Assume u= 3.986 x 10° km /s? (i.e., geocentric orbits)