Match the evidence and reasoning to support the claim: Light is a particle. Evidence: I. Light passing through a double slit creates an interference pattern on a screen. II. Electrons are ejected from a piece of metal when some wavelengths of light shine upon it Reasoning: III. Diffraction and interference are characteristic properties of particles. IV. Electrons are only ejected if the light has a frequency above a threshold value. V. If electrons are not initially ejected, then increasing the intensity of the light will cause electrons to be ejected by increasing the energy of the light. I and III Il and IV I and IV O Il and V I and V OI I, IV, and V

Match the evidence and reasoning to support the claim: Light is a particle. Evidence: I. Light passing through a double slit creates an interference pattern on a screen. II. Electrons are ejected from a piece of metal when some wavelengths of light shine upon it Reasoning: III. Diffraction and interference are characteristic properties of particles. IV. Electrons are only ejected if the light has a frequency above a threshold value. V. If electrons are not initially ejected, then increasing the intensity of the light will cause electrons to be ejected by increasing the energy of the light. I and III Il and IV I and IV O Il and V I and V OI I, IV, and V

Introductory Chemistry: A Foundation

9th Edition

ISBN:9781337399425

Author:Steven S. Zumdahl, Donald J. DeCoste

Publisher:Steven S. Zumdahl, Donald J. DeCoste

Chapter11: Modern Atomic Theory

Section: Chapter Questions

Problem 100AP

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Similar questions

A photon with a wavelength of 93.8 nm strikes a hydrogen atom, and light is emitted by the atom. How many emission lines would be observed? At what wavelengths? Explain briefly (see Figure 6.10).
Scientists use emission spectra to confirm the presence of an element in materials of unknown composition. Why is this possible?
State the postulates of quantum mechanics introduced throughout the chapter in your own words.
What evidence do we have that energy levels in an atom are quantized? State and explain the evidence.
Although a hydrogen atom has only one electron, the hydrogen atom possesses a complete set of available orbitals. What purpose do these additional orbitals serve?
Write a brief description of the relationships among each of the following groups of terms or phrases. Answers to the Concept-Linking Exercises are given at the end of the chapter. Daltons atomic theory, nuclear model of the atom, Rutherfords scattering experiments.
Planck originated the idea that energies can be quantized. What does the term quantized mean? What was Planck trying to explain when he was led to the concept of quantization of energy? Give the formula he arrived at and explain each of the terms in the formula.
Answer the following questions: (a) Without using quantum numbers, describe the differences between the shells, subshells, and orbitals of an atom. (b) How do the quantum numbers of the shells, subshells, and orbitals of an atom differ?
Determine whether each statement that follows is true or false: a Electron energies are quantized in excited states but not in the ground state. b Line spectra of the elements are experimental evidence of the quantization of electron energies. c Energy is released as an electron passes from ground state to an excited state. d The energy of an electron may be between two quantized energy levels. e The Bohr model explanation of line spectra is still thought to be correct. f The quantum mechanical model of the atom describes orbitals in which electrons travel around the nucleus. g Orbitals are regions in which there is a high probability of finding an electron. h All energy sublevels have the same number of orbitals. i The 3p orbitals of an atom are larger than its 2p orbitals but smaller than its 4p orbitals. j At a given sublevel, the maximum number of d electrons is 5. k The halogens are found in Group 7A/17 of the periodic table. l The dot structure of the alkaline earths is X, where X is the symbol of element in the family. m Stable ions formed by alkaline earth metals are isoelectronic with noble gas atoms. n Atomic numbers 23 and 45 both belong to transition elements. o Atomic number 52, 35, and 18 are arranged in order of increasing atomic size. p Atomic number 7, 16, and 35 are all nonmetals.

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