The adjacent lines in the pure rotational spectrum of 35CI19F are separated by a frequency of 1.13x1010Hz. , what is the inter atomic distance of this molecule?
Q: The separation between two hydrogen atoms in an H2 molecule is 75 pm. The mass of a hydrogen atom is…
A: Rotational energy can be calculated as,
Q: dn 2. A Fabry-Perot laser diode is operating at 1750 nm. The Laser Diode has a cavity length of 400…
A: Original wavelength of the laser, λ=1750 nm=1750×10-9 m Cavity length of the laser diode, L=400…
Q: The forbidden energy bandgap of AIP is 2.43 eV. Determine the wavelength (in nm) of an incident…
A:
Q: An isolated LiCl molecule has its chloride ion (mass = 35 u) at x= 0 pm , and its lithium ion (7 u)…
A:
Q: Delawarium, which has an FCC crystal structure. The following information is known about Delawarium:…
A: Delawarium crystallizes into a FCC structure, having an atomic radius of 0.128 nm. In a FCC crystal…
Q: Evaluate and sketch the planar atomic density for the following crystal planes in BCC with alattice…
A:
Q: A hypothetical NH molecule makes a rotational-level transition from l= 3 to I = 1 and gives off a…
A: Mass of hydrogen= 1.67 x 10-27Kg Mass of nitrogen= 2.33 x 10-26Kg Wavelength of photon= 1.740 nm
Q: What is the energy of an electron in the n=2 state for an gold atom, , in units of eV. E = [x]…
A: Given that number of state for an gold atom and We have to determine the energy of an electron in…
Q: The same kind of semiconducting material used to make an LED can also be used to convert absorbed…
A:
Q: temperature. (a) If the concentration of holes is 2.4 x 1015 cm-3, determine the electron concentra-…
A: Given:- Consider a germanium semiconductor at room temperature. a) If the concentration of holes is…
Q: An electron is confined to a metal cube of l=0.8 cm on each side. Determine the density at…
A: Density of electron at a given energy level is the chance of find an electron at that energy level.…
Q: A Fabry–Perot laser diode is operating at 1750 nm. The Laser Diode has a cavity length of 400 μm.…
A:
Q: A CO molecule is initially in the n = 2 vibrational level. If this molecule loses both vibrational…
A: energy of a vibrating rotatorisEnI=(n+12)hωosc+I(I+1)h28π2I'..........(1)ωosc=12πKm............(2)we…
Q: 7.11 (a) A crate slides partway up the ramp, stops, and slides back down. (b) Energy bar graphs for…
A: In the given example, The problem based on the conservation of energy.
Q: a. Calculate the zero point energy associated with this rotation. b. What is the smallest quantum of…
A: The reduced mass of the HI moleculeμ=(1∗127)/(1+127)amuμ=(127/128)∗1.67∗10−27=1.65∗10−27 kgNow the…
Q: 5. a) What is the difference in energy between the J=1 and J=2 rotational energy levels for a HBr…
A: HBr is a heteronuclear diatomic molecule. This molecule is a rigid rotator. The energy of rotating…
Step by step
Solved in 3 steps with 3 images
- A hypothetical NH molecule makes a rotational-level transition from l=3 to l=1 and gives off a photon of wavelength 1.800 nm in doing so. What is the seperation between the two atoms in this molecule if we model them as point masses? The mass of hydrogen 1.67 * 10^-27 kg, and the mass of nitrogen is 2.33 * 10^-26 kg.Graph below shows the electron occupancy probability P(E) as a function of energy for Bismuth (mBi = 3.47 × 10-25 kg) at the temperature T = 0 K. What is the number of conduction electrons per unit volume for Bismuth? 1 1 2 3 4 5 6 7 8 E (ev) P(E)5.47 Germanium is doped with 5 × 10¹5 donor atoms per cm³ at T = 300 K. The dimen- sions of the Hall device are d = 5 x 10-³ cm, W = 2 × 10-² cm, and L = 10-¹ cm. The current is I = 250 μA, the applied voltage is V. = 100 mV, and the magnetic flux density is B₂ = 500 gauss = 5 x 10-2 tesla. Calculate: (a) the Hall voltage, (b) the Hall field, and (c) the carrier mobility.
- GggThe mass of the most common silicon atom is 4.646 * 10-26 kg, and the mass of the most common oxygen atom is 2.656 * 10-26 kg. When a molecule of silicon monoxide (SiO) makes a transition between the l = 1 and l = 0 rotational levels, it emits a photon of wavelength 6.882 mm. Find the distance between the Si and O nuclei.A 10 monolayers thick layer of Ag is deposited on Mo. The intensity of electrons emitted by the Ag and Mo can be measured separately. The ratio IAg/IMoi =100 for the deposited film. The mean free path of the electrons is 0.6 nm and the thickness of one layer is 0.18 nm. After heating the sample, the Ag layer has agglomerated in islands that cover a fraction q of the surface. Between the islands the Mo is “visible”. The intensity ratio after agglomeration is IAg/IMof = 1. Calculate the sensitivity of the electron spectroscopy technique for Ag with respect to Mo. I.e. how many electrons are emitted from one layer of Ag atoms compared to one layer of Mo atoms. And use this to determine what fraction of the surface is covered by islands?