 40.1: An electron in a hydrogen atom is in a state with . What is the min...
 40.2: How many electron states are there in a shell defined by the quantu...
 40.3: (a) What is the magnitude of the orbital angular momentum in a stat...
 40.4: How many electron states are there in the following shells: (a) n !...
 40.5: (a) How many values are associated with n 3? (b) How many values ar...
 40.6: How many electron states are in these subshells: (a) n ! 4, ; (b) n...
 40.7: An electron in a multielectron atom has . For this electron, what a...
 40.8: In the subshell , (a) what is the greatest (most positive) value, (...
 40.9: An electron is in a state with . (a) What ! ! 3 m! m! ! ! 3 ! m! ! ...
 40.10: An electron is in a state with n ! 3.What are (a) the number of pos...
 40.11: If orbital angular momentum is measured along, say, a z axis to obt...
 40.12: A magnetic field is applied to a freely floating uniform iron spher...
 40.13: What is the acceleration of a silver atom as it passes through the ...
 40.14: Suppose that a hydrogen atom in its ground state moves 80 cm throug...
 40.15: Calculate the (a) smaller and (b) larger value of the semiclassical...
 40.16: Assume that in the SternGerlach experiment as described for neutral...
 40.17: In an NMR experiment, the RF source oscillates at 34 MHz and magnet...
 40.18: A hydrogen atom in its ground state actually has two possible, clos...
 40.19: What is the wavelength associated with a photon that will induce a ...
 40.20: A rectangular corral of widths Lx ! L and Ly ! 2L contains seven el...
 40.21: Seven electrons are trapped in a onedimensional infinite potential...
 40.22: Figure 4023 is an energylevel diagram for a fictitious infinite p...
 40.23: A cubical box of widths Lx ! Ly ! Lz ! L contains eight electrons. ...
 40.24: For 20, what multiple of h2 /8mL2 gives the energy of (a) the first...
 40.25: For the situation of 21, what multiple of h2 /8mL2 gives the energy...
 40.26: For the situation of 23, what multiple of h2 /8mL2 gives the energy...
 40.27: Two of the three electrons in a lithium atom SSM h2 /8mL2 Figure 40...
 40.28: Show that the number of states with the same quantum number n is 2n2 .
 40.29: A recently named element is darmstadtium (Ds), which has 110 electr...
 40.30: For a helium atom in its ground state, what are quantum numbers ( )...
 40.31: Consider the elements selenium (Z ! 34), bromine (Z ! 35), and kryp...
 40.32: Suppose two electrons in an atom have quantum numbers n ! 2 and . (...
 40.33: Through what minimum potential difference must an electron in an x...
 40.34: The wavelength of the Ka line from iron is 193 pm. What is the ener...
 40.35: In Fig. 4013, the x rays shown are produced when 35.0 keV electron...
 40.36: When electrons bombard a molybdenum target, they produce both conti...
 40.37: Show that a moving electron cannot spontaneously change into an xr...
 40.38: Here are the Ka wavelengths of a few elements: Element l (pm) Eleme...
 40.39: Calculate the ratio of the wavelength of the Ka line for niobium (N...
 40.40: (a) From Eq. 4026, what is the ratio of the photon energies due to...
 40.41: The binding energies of Kshell and Lshell electrons in copper are...
 40.42: From Fig. 4013, calculate approximately the energy difference EL #...
 40.43: A tungsten (Z ! 74) target is bombarded by electrons in an xray tu...
 40.44: A 20 keV electron is brought to rest by colliding twice with target...
 40.45: X rays are produced in an xray tube by electrons accelerated throu...
 40.46: Determine the constant C in Eq. 4027 to five significant figures b...
 40.47: The active volume of a laser constructed of the semiconductor GaAlA...
 40.48: A highpowered laser beam (l ! 600 nm) with a beam diameter of 12 c...
 40.49: Assume that lasers are available whose wavelengths can be precisely...
 40.50: A hypothetical atom has only two atomic energy levels, separated by...
 40.51: A hypothetical atom has only two atomic energy levels, separated by...
 40.52: A laser emits at 424 nm in a single pulse that lasts 0.500 ms. The ...
 40.53: A heliumneon laser emits laser light at a wavelength of 632.8 nm an...
 40.54: A certain gas laser can emit light at wavelength 550 nm, which invo...
 40.55: A pulsed laser emits light at a wavelength of 694.4 nm. The pulse d...
 40.56: A population inversion for two energy levels is often described by ...
 40.57: A hypothetical atom has two energy levels, with a transition wavele...
 40.58: The mirrors in the laser of Fig. 4020, which are separated by 8.0 ...
 40.59: Figure 4024 shows the energy levels of two types of atoms. Atoms A...
 40.60: The beam from an argon laser (of wavelength 515 nm) has a diameter ...
 40.61: The active medium in a particular laser that generates laser light ...
 40.62: Ruby lases at a wavelength of 694 nm. A certain ruby crystal has Cr...
 40.63: Figure 4025 is an energylevel diagram for a fictitious threedime...
 40.64: ight shines on the atmosphere of Mars, carbon dioxide molecules at ...
 40.65: Excited sodium atoms emit two closely spaced spectrum lines called ...
 40.66: Comet stimulated emission. When a comet approaches the Sun, the inc...
 40.67: Show that the cutoff wavelength (in picometers) in the continuous x...
 40.68: By measuring the goandreturn time for a laser pulse to travel fro...
 40.69: Can an incoming intercontinental ballistic missile be destroyed by ...
 40.70: A molybdenum (Z ! 42) target is bombarded with 35.0 keV electrons a...
 40.71: An electron in a multielectron atom is known to have the quantum nu...
 40.72: Show that if the 63 electrons in an atom of europium were assigned ...
 40.73: Lasers can be used to generate pulses of light whose durations are ...
 40.74: Show that + ! 1.06 " 10 #34 J$s ! 6.59 " 10 #16 eV$s
 40.75: Suppose that the electron had no spin and that the Pauli exclusion ...
 40.76: (A correspondence principle problem.) Estimate (a) the quantum numb...
 40.77: Knowing that the minimum xray wavelength produced by 40.0 keV elec...
 40.78: Consider an atom with two closely spaced excited states A and B. If...
 40.79: In 1911, Ernest Rutherford modeled an atom as being a point of posi...
Solutions for Chapter 40: Fundamentals of Physics 10th Edition
Full solutions for Fundamentals of Physics  10th Edition
ISBN: 9781118230718
Solutions for Chapter 40
Get Full SolutionsSince 79 problems in chapter 40 have been answered, more than 100448 students have viewed full stepbystep solutions from this chapter. Chapter 40 includes 79 full stepbystep solutions. This expansive textbook survival guide covers the following chapters and their solutions. Fundamentals of Physics was written by Sieva Kozinsky and is associated to the ISBN: 9781118230718. This textbook survival guide was created for the textbook: Fundamentals of Physics, edition: 10.

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