Physics and the Quantum Mechanical Model

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Transcription:

chemistry 1 of 38 Mechanical Model Neon advertising signs are formed from glass tubes bent in various shapes. An electric current passing through the gas in each glass tube makes the gas glow with its own characteristic color. You will learn why each gas glows with a specific color of light. 2 of 38 1

> Light Light How are the wavelength and frequency of light related? 3 of 38 > Light The amplitude of a wave is the wave s height from zero to the crest. The wavelength, represented by λ (the Greek letter lambda), is the distance between the crests. 4 of 38 2

> Light The frequency, represented by ν (the Greek letter nu), is the number of wave cycles to pass a given point per unit of time. The SI unit of cycles per second is called a hertz (Hz). 5 of 38 > Light The wavelength and frequency of light are inversely proportional to each other. 6 of 38 3

> Light The product of the frequency and wavelength always equals a constant (c), the speed of light. 7 of 38 > Light According to the wave model, light consists of electromagnetic waves. Electromagnetic radiation includes radio waves, microwaves, infrared waves, visible light, ultraviolet waves, X-rays, and gamma rays. All electromagnetic waves travel in a vacuum at a speed of 2.998 10 8 m/s. 8 of 38 4

> Light Sunlight consists of light with a continuous range of wavelengths and frequencies. When sunlight passes through a prism, the different frequencies separate into a spectrum of colors. In the visible spectrum, red light has the longest wavelength and the lowest frequency. 9 of 38 > Light The electromagnetic spectrum consists of radiation over a broad band of wavelengths. 10 of 38 5

> Light Simulation 3 Explore the properties of electromagnetic radiation. 11 of 38 SAMPLE PROBLEM 5.1 12 of 38 6

SAMPLE PROBLEM 5.1 13 of 38 SAMPLE PROBLEM 5.1 14 of 38 7

SAMPLE PROBLEM 5.1 15 of 38 Practice Problems for Sample Problem 5.1 Problem-Solving 5.15 Solve Problem 15 with the help of an interactive guided tutorial. 16 of 38 8

> Atomic Spectra Atomic Spectra What causes atomic emission spectra? 17 of 38 > Atomic Spectra When atoms absorb energy, electrons move into higher energy levels. These electrons then lose energy by emitting light when they return to lower energy levels. 18 of 38 9

> Atomic Spectra A prism separates light into the colors it contains. When white light passes through a prism, it produces a rainbow of colors. 19 of 38 > Atomic Spectra When light from a helium lamp passes through a prism, discrete lines are produced. 20 of 38 10

> Atomic Spectra The frequencies of light emitted by an element separate into discrete lines to give the atomic emission spectrum of the element. Mercury Nitrogen 21 of 38 > An Explanation of Atomic Spectra An Explanation of Atomic Spectra How are the frequencies of light an atom emits related to changes of electron energies? 22 of 38 11

> An Explanation of Atomic Spectra In the Bohr model, the lone electron in the hydrogen atom can have only certain specific energies. When the electron has its lowest possible energy, the atom is in its ground state. Excitation of the electron by absorbing energy raises the atom from the ground state to an excited state. A quantum of energy in the form of light is emitted when the electron drops back to a lower energy level. 23 of 38 > An Explanation of Atomic Spectra The light emitted by an electron moving from a higher to a lower energy level has a frequency directly proportional to the energy change of the electron. 24 of 38 12

> An Explanation of Atomic Spectra The three groups of lines in the hydrogen spectrum correspond to the transition of electrons from higher energy levels to lower energy levels. 25 of 38 > An Explanation of Atomic Spectra Animation 6 Learn about atomic emission spectra and how neon lights work. 26 of 38 13

> Quantum Mechanics Quantum Mechanics How does quantum mechanics differ from classical mechanics? 27 of 38 > Quantum Mechanics In 1905, Albert Einstein successfully explained experimental data by proposing that light could be described as quanta of energy. The quanta behave as if they were particles. Light quanta are called photons. In 1924, De Broglie developed an equation that predicts that all moving objects have wavelike behavior. 28 of 38 14

> Quantum Mechanics Today, the wavelike properties of beams of electrons are useful in magnifying objects. The electrons in an electron microscope have much smaller wavelengths than visible light. This allows a much clearer enlarged image of a very small object, such as this mite. 29 of 38 > Quantum Mechanics Simulation 4 Simulate the photoelectric effect. Observe the results as a function of radiation frequency and intensity. 30 of 38 15

> Quantum Mechanics Classical mechanics adequately describes the motions of bodies much larger than atoms, while quantum mechanics describes the motions of subatomic particles and atoms as waves. 31 of 38 > Quantum Mechanics The Heisenberg uncertainty principle states that it is impossible to know exactly both the velocity and the position of a particle at the same time. This limitation is critical in dealing with small particles such as electrons. This limitation does not matter for ordinarysized object such as cars or airplanes. 32 of 38 16

> Quantum Mechanics The Heisenberg Uncertainty Principle 33 of 38 17

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