Assume that the molecule is linear and use the values 135 and 154 pm for C=C...

An electron confined to a one-dimensional box has energy levels given by the equation En=n2h2/8mL2 where...

An electron confined to a one-dimensional box has energy levels given by the equation En=n2h2/8mL2 where n is a quantum number with possible values of 1,2,3,…,m is the mass of the particle, and L is the length of the box.    Calculate the energies of the n=1,n=2, and n=3 levels for an electron in a box with a length of 180 pm . Enter your answers separated by a comma. Calculate the wavelength of light required to make a transition...

The particle in a 1-D box is sometimes used as a model for electrons in a...

The particle in a 1-D box is sometimes used as a model for electrons in a conjugated pi-bond system (alternating double and single bonds). a. The molecule has four pi electrons. Assume that two are in the state corresponding to n=1 and that two are in the state corresponding to n=2. Find the frequency and wavelength of the light absorbed if an electron makes a transition from n=2 to n=3. b. Calculate the probability that a particle in a 1-D...

8. Consider the structure of beta-carotene: It is a linear polyene in which 21 bonds, 10...

8. Consider the structure of beta-carotene: It is a linear polyene in which 21 bonds, 10 single and 11 double, alternate along a chain of 22 carbon atoms. Assume that beta-carotene can be modeled as a one-dimensional box or pipe with each of the 21 bonds having a length of 1.4x10-10 m. Assume that there is one freely moving electron in the n=11 energy level that can be promoted to the n=12 energy level. Calculate the energy separation between the...

Physcial Chemistry:Ch 10 Introduction to Quantum Mechanics Carotenes are molecules with alternating C–C and C=C bonds...

Physcial Chemistry:Ch 10 Introduction to Quantum Mechanics Carotenes are molecules with alternating C–C and C=C bonds in which the electrons are delocalized across the entire alternating bond system. As such, the electrons can be approximated as being a particle-in-a-box. Lycopene is a carotene found in tomatoes and watermelon. Assuming that the alternating carbon-carbon bond system is 2.64 nm wide: (a) What is the energy of the n = 11 level? (b) What is the energy of the n = 12...

1.) Which transition in a hydrogen atom would emit the photon of greatest frequency? n =...

1.) Which transition in a hydrogen atom would emit the photon of greatest frequency? n = 35 to n = 2 n= 6 to n = 2     n = 12 to n = 6 n = 1 to n = 4 n = 2 to n = 9 n = 3 to n = 1 ***NOT n=35 to n=2*** 2.) Which transition in a hydrogen atom would absorb the photon of greatest frequency? n = 3 to n = 1...

1.) Which transition in a hydrogen atom would emit the photon of greatest frequency? n =...

1.) Which transition in a hydrogen atom would emit the photon of greatest frequency? n = 35 to n = 2 n= 6 to n = 2     n = 12 to n = 6 n = 1 to n = 4 n = 2 to n = 9 n = 3 to n = 1 ***NOT n=35 to n=2*** 2.) Which transition in a hydrogen atom would absorb the photon of greatest frequency? n = 3 to n = 1...

1) The Pauli Exclusion Principle tells us that no two electrons in an atom can have...

1) The Pauli Exclusion Principle tells us that no two electrons in an atom can have the same four quantum numbers. Enter ONE possible value for each quantum number of an electron in the orbital given. Orbital n l ml ms 1s There are a total of values possible for ml. 2s There are a total of values possible for ml. 2) The Pauli Exclusion Principle tells us that no two electrons in an atom can have the same four...

Astronomers use the line emission from the quantum state n = 3 to n = 2...

Astronomers use the line emission from the quantum state n = 3 to n = 2 to probe ionized hydrogen gas – that is, hydrogen gas stripped of its electron. In ionization equilibrium, a balance is established between the process of ionization and its reverse, recombination, in which a free electron e − and proton p recombine to form neutral atomic hydrogen H, releasing one or more photons γ : e − + p ↔ H + γ The recombination...

1. A woman expends 92 kJ of energy in walking a kilometer. The energy is supplied...

1. A woman expends 92 kJ of energy in walking a kilometer. The energy is supplied by the metabolic breakdown of food intake and has a 35 percent efficiency. a) If the woman drives a car over the same distance, how much energy is used if the car gets 8.0 km per liter of gasoline (approximately 20 mi/gal)? The density of gasoline is 0.71 g/mL, and its enthalpy of combustion is 49 kJ/g. b) Compare the efficiencies of the two...

CHE 151-3rd Write your answers in the Blue Book provided. Start each new question at the...

CHE 151-3rd Write your answers in the Blue Book provided. Start each new question at the top of a new page. To receive full credit for problems, you must show the correct setup with units and give your answer with the correct number of significant figures. 1.a) A barometer reads 1.43 atm. Calculate the pressure in mm Hg, and torr. b) If 4.50 L of oxygen is cooled at constant pressure from 200 oC to 25 oC, what is the...