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- If a nitrogen molecule is trapped in a hypothetical 1-D box of length 1.10 cm, at what value of the translational quantum number, n does the translational energy of the molecule becomes equal to 1/3 k. T at 350 K? Select one: 19 O a. 4.36 x 10 6. O b. 4.06 x 10 17 O c. 1.65 x 10 O d. 9.97 x 10Carbon dioxide and water are important greenhouse gases. Sketch the fundamental vibrations for both molecules and indicate which you expect to be infrared active.True or false: 1. Tunneling is more likely to contribute to reactions involving electron transfer than to those involving proton transfer. 2. The energy levels of He only depend on the principal quantum number n. 3. The ionization energy of F is smaller than that of Br.
- How is this absorption of light related to the molecular shape of the atmospheric gases? Their symmetry? Theirpolarity?Calculate the kinetic energy of a single 1H atom moving with an average velocity of 1220 m s−1.Calculate the kinetic energy of 1 mole of such atoms. Calculate the temperature of such a gas.For 1 I have A being B, B. No, C. Yes
- Consider the molecules: CH2=CH-CH=CH-CH=CH-CH=CH-CH=CH2. let’s assume that the 10 electrons that make up the double bonds can exist everywhere along the carbon chains. The electrons can then be considered as particles in a box; the ends of the molecule correspond to the boundaries of the box with a finite or zero potential energy inside. In this “molecular box”, 2 electrons can occupy an energy level. What are quantum states that the electrons from this molecule can occupy in the ground state? What’s the smallest frequency of light that can excite the electron? Briefly explain why. Note that the length of a C-C bond is about 1.54A and the length of a C=C bond is 1.34A to allow you to estimate the length of the “molecular box”Consider the molecules: CH2=CH-CH=CH-CH=CH-CH=CH-CH=CH2. Let’s assume that the 10 electrons that make up the double bonds can exist everywhere along the carbon chains. The electrons can then be considered as particles in a box; the ends of the molecule correspond to the boundaries of the box with a finite or zero potential energy inside. In this “molecular box”, 2 electrons can occupy an energy level. What are quantum states that the electrons from this molecule can occupy in the ground state? What’s the smallest frequency of light that can excite the electron? Note that the length of a C-C bond is about 1.54A and the length of a C=C bond is 1.34A to allow you to estimate the length of the “molecular box”Consider the molecules: CH2=CH-CH=CH-CH=CH-CH=CH-CH=CH2. Let’s assume that the 10 electrons that make up the double bonds can exist everywhere along the carbon chains. The electrons can then be considered as particles in a box; the ends of the molecule correspond to the boundaries of the box with a finite or zero potential energy inside. In this “molecular box”, 2 electrons can occupy an energy level. What are quantum states that the electrons from this molecule can occupy in the ground state? Note that the length of a C-C bond is about 1.54A and the length of a C=C bond is 1.34A to allow you to estimate the length of the “molecular box”
- Consider the molecules: CH2=CH-CH=CH-CH=CH-CH=CH-CH=CH2. Let’s assume that the 10 electrons that make up the double bonds can exist everywhere along the carbon chains. The electrons can then be considered as particles in a box; the ends of the molecule correspond to the boundaries of the box with a finite or zero potential energy inside. In this “molecular box”, 2 electrons can occupy an energy level. What’s the smallest frequency of light that can excite the electron? Briefly explain why.Covalent bonds in a molecule absorb radiation in the IR region and vibrate at characteristic frequencies. Note: Reference the Fundamental constants and Unit conversions for derived SI units tables for additional information, Part 1 of 2 A molecular vibration absorbs radiation of wavelength 219. um. What frequency corresponds to that wavelength? Round your answer to 3 significant figures. 0.9 X G Part 2 of 2 A molecular vibration has a frequency of vibration of 9,490x 10 Hz. What wavelength corresponds to that frequency? Round your answer to 4 significant figures. um of Save For Later 141 Submit AssignmentSchrodinger and de Broglie suggested a ‘Wave—particle duality" for small particles—that is, if electromagnetic radiation showed some particle-like properties, then perhaps small punicles might exhibit same wave-like properties. Explain. How does the wave mechanical picture of the atom fundamentally differ from the Bohr model? How do wave mechanical arbitals differ from Bohr’s orbits? What does it mean to say that an orbital represents a probability map for an electron?