Chemistry
10th Edition
ISBN: 9781305957404
Author: Steven S. Zumdahl, Susan A. Zumdahl, Donald J. DeCoste
Publisher: Cengage Learning
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How many possible energy releasing electron transitions are possible for a single electron in a hydrogen atom if there are 7 orbits available to the electron? Enter only a number for your answer.
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- Solution of the Schrödinger wave equation for the hydrogen atom results in a set of functions (orbitals) that describe the behavior of the electron. Each function is characterized by three quantum numbers: n, I, and my. If the value of n = 1 The quantum number / can have values from The total number of orbitals possible at the n to 1 energy level is If the value of / = 0 The quantum number m, can have values from to. The total number of orbitals possible at the / = 0 sublevel isarrow_forwardThis energy diagram shows the allowed energy levels of an electron in a certain atom. (Note: the SI prefix 'zepto' means 10 any SI prefix in the ALEKS Data tab.) energy (z)) 1400 1200- 1000- 800 600. 400 200 0 -C -B -A Use this diagram to complete the table below. What is the energy of the electron in the ground state? What is the energy of the electron in the first excited state? If the electron makes the transition shown by the red arrow, from A to C, will a photon be absorbed or emitted? Calculate the wavelength of the photon that would be absorbed or emitted. Round your answer to 3 significant digits. zJ O absorbed O emitted nm x10 X 5 -21 . You can find the meaning ofarrow_forwardHELP!! Use this to guide you- A model of the atom which explained the atomic emission spectrum of hydrogen was proposed by Neils Bohr. Bohr suggested that an atomic spectrum is created when the electrons in an atom move between energy levels. In Bohr’s model, electrons exist in orbits around the nucleus which only exist at fixed distances from the nucleus called energy levels. According to the Bohr model electrons can orbit at many fixed distances from the nucleus. Bohr proposed electrons orbit at fixed distances from the nucleus in stationary states, such as the ground state or excited state to explain why they did not radiate energy while orbiting the nucleus.arrow_forward
- For a hydrogen atom, which electronic transition would result in the emission of a photon with the highest energy? 3s → 4p 2p → 6d 7f → 5d 5p → 3sarrow_forwardReview Topics) Use the References to access important values if needed for this question. [References] Solution of the Schrödinger wave equation for the hydrogen atom results in a set of functions (orbitals) that describe the behavior of the electron. Each function is characterized by 3 quantum numbers: n, I, and m¡. Erwin Schrödinger If the value of n=3 The quantum number I can have values from The total number of orbitals possible at then 3 energy level is to If the value ofl=2 The quantum number m, can have values from The total number of orbitals possible at thel= 2 sublevel is to Retry Entire Group No more group attempts remain Submit Answer Next Previous Save a Email Instructorarrow_forwardSolution of the Schrödinger wave equation for the hydrogen atom results in a set of functions (orbitals) that describe the behavior of the electron. Each function is characterized by three quantum numbers: n, l, and ml. If the value of n = 1... The quantum number l can have values from to .... The total number of orbitals possible at the n = 1 energy level is .If the value of l = 2... The quantum number ml can have values from to .... The total number of orbitals possible at the l = 2 sublevel is .arrow_forward
- How many unpaired electrons are there in a nitrogen atom and its ground statearrow_forward*Consider just the second energy level for fictional atom Zy. Determine the following information. Determine all of the possible angular quantum number/s that can be found on the second energy level. The total numbers of shells (including all sub shells) that can exist in the second energy level on this Zy atom =…………………….. If the atom Zy has 6 electrons in its second energy level. Determine the total number of electrons that the atom Zy has? Explain your answer. Write the orbital diagram for the atom Zy and determine if the atom is paramagnetic or diamagnetic. Will the atom Zy be larger, smaller or the same in ion size than the oxygen atom. Explain your answer.arrow_forwardIf the energy required to remove an electron from its attraction with a proton in a hydrogen atom is equal to 13.6 eV, and the atom is targeted with electromagnetic radiation, its energy is equal to 20 ev. - Find the radius of the ground state orbit in this atom - Calculate the frequency of the spectrum being produced - Calculate the electron velocity after leaving the atomarrow_forward
- how many angular nodes are there in a 7h orbital?arrow_forwardConsider a Helium ion with 1 electron in the ground state. It turns out that it would take about 28 eV of energy to remove this electron through ionization. Blue photons have an energy of about 4 eV . So, I think this electron can emit about 7 blue photons. Do you agree?arrow_forwardSolution of the Schrödinger wave equation for the hydrogen atom results in a set of functions (orbitals) that describe the behavior of the electron. Each function is characterized by three quantum numbers: n, /, and my. If the value of n = 2 The quantum number / can have values from The total number of orbitals possible at the n = 20 to 2 energy level is If the value of /= 0 The quantum number m, can have values from to The total number of orbitals possible at the / = 0 sublevel isarrow_forward
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