Atoms

Atoms Physical Science Chapter 4 Physical Science chapter 10

The atom • The atom – smallest piece of matter that has the properties of an element. • Made of • Protons • Neutrons • Electrons • If we split an atom, we no longer have a specific element • We can’t tell an oxygen proton apart from a carbon proton Physical Science chapter 10

Early atomic theory - Democritus • Greek philosopher about 400 B.C. • Gave us the word atom • Atomos - indivisible. • Thought • The world was made of empty space and particles called atoms. • There were different types of atoms for different types of materials. • Theory was not supported by experimental evidence. Physical Science chapter 10

Early atomic theory – Aristotle • Aristotle did not believe in atoms • thought matter was continuous • He was very influential, so Democritus’s theory was not accepted for many centuries. Physical Science chapter 10

17th century • People began to express doubts in Aristotle’s theory. • Experiments were being used to determine the validity of a theory. Physical Science chapter 10

John Dalton – early 1800s • Studied experimental observations of chemical reactions • Proposed explanation of these experimental results Physical Science chapter 10

Dalton’s Hypothesis • All matter is composed of very small particles called atoms. • All atoms of an element are exactly alike; atoms of different elements are very different. • Atoms cannot be subdivided, created, or destroyed. • Atoms unite with other atoms in simple ratios to form compounds • In chemical reactions, atoms are combined, separated, or rearranged. Physical Science chapter 10

Dalton’s theories • However, there some major exceptions to the rules. • Some elements can combine with each other in different proportions • H2O and H2O2 • Splitting atoms • Different atoms of the same element Physical Science chapter 10

Cathode rays and electrons • 1897 – J.J. Thomson tested cathode rays and discovered that they were electrons. • they had mass • they were negatively charged Physical Science chapter 10

Thomson’s plum pudding model • In this model, the raisins were the electrons and the pudding was the positive charge. • Sort of like chocolate chip cookie dough. • The chips are the electrons and the dough is the positive charge. • Explained the experiments that had been done so far. Physical Science chapter 10

Testing the plum pudding model • See page 117 • fired alpha particles at a very thin (a few atoms thick) sheet of gold foil. • They expected the particles to go right through because the spread out positive charge in the “pudding” wouldn’t be strong enough to deflect them. Physical Science chapter 10

What happened • Most of the particles did go right through without being deflected at all. • Some were deflected at large angles. • Ernest Rutherford explained it: • the positive charge on the atom was concentrated at a small core – now called the nucleus. Physical Science chapter 10

The atom as we now “know” it • The nucleus contains all of the positive charge and most of the mass. • The negatively charged electrons have very small mass and are located around the nucleus in the electron cloud. • Most of an atom is empty space. Physical Science chapter 10

Discuss • Compare and contrast Thomson’s atomic model with Rutherford’s atomic model. • How did the gold foil experiment lead to the conclusion that the atom has a nucleus? Physical Science chapter 10

Atoms • Basic building blocks of matter • Smallest part that can be called an element • Made up of: • Nucleus – in the center • Protons – positively charged • Neutrons – neutral (no charge) • Electrons – around the nucleus and negatively charged Physical Science chapter 10

Mass and charge comparisons • A proton’s positive charge is equal to an electron’s negative charge. • A proton and a neutron have about the same mass. • An electron has a mass that is about 1/2000 the mass of a proton • Electrons are much smaller! They are so small that their mass is negligible. Physical Science chapter 10

Atomic number (Z) • Given on the periodic table. • The atomic number of an atom is the number of protons it has. • Defines what element an atom is • It is also the number of electrons the atom has. • Since an atom has an equal number of positive protons and negative electrons, the whole atom is electrically neutral. Physical Science chapter 10

Mass number (A) • the number of particles in the nucleus of an atom. • In other words, the sum of the number of protons and the number of neutrons. Physical Science chapter 10

Calculating the number of neutrons • To find the number of neutrons, just subtract the atomic number from the mass number. Physical Science chapter 10

Isotopes • Atoms of the same element that have different numbers of neutrons. • All the isotopes of an atom have the same number of protons and electrons, it is only the number of neutrons that is different. • All the isotopes of an atom are chemically the same, even though they differ in mass. Physical Science chapter 10

Different isotopes • To distinguish between the two types of neon isotopes, we can write neon-20 and neon-21. Physical Science chapter 10

Discuss • Read the “Why It Matters” section on page 123. • Discuss it with your groups – including the critical thinking question. Physical Science chapter 10

Atomic mass • A proton or a neutron has a mass of about 1.7 x 10-27 kg. • This is a very small number, so it is not very convenient to write or work with. • Instead, we use atomic mass units (amu). • Also called unified atomic mass units (u) Physical Science chapter 10

Atomic mass units • 1 amuis defined as one-twelfth the mass of a carbon atom with 6 protons and 6 neutrons. • Since the mass of electrons are negligible, a proton or a neutron has a mass of about 1 amu. Physical Science chapter 10

Atomic mass • On the periodic table, the atomic masses listed are usually not whole numbers. • This is because atoms have different isotopes. • So, the masses given on the table are average masses. Physical Science chapter 10

Example • Neon has isotopes with mass numbers of 20 and 21. • The atomic mass on the periodic table is given as 20.179. • This tells us that most neon isotopes have a mass number of 20. • How many neutrons are in each neon isotope? Physical Science chapter 10

Weighted averages • We then use a weighted average to find the average mass of an atom of a given element. • This is called the average atomic mass or just atomic mass. Physical Science chapter 10

The Mole • SI unit for amount of substance • Abbreviated mol • A counting unit • 6.022 x 1023 particles • Avogadro’s number • Based on carbon-12, 12 g of C-12 contains 1 mol of atoms Physical Science chapter 10

Molar mass • The mass of 1 mol of a pure substance • Units: g/mol • Numerically equal to the atomic mass in amu • On the periodic table the number with a decimal is the atomic mass in amu AND the molar mass in g/mol Physical Science chapter 10

conversions • Grams to moles or moles to grams • Use the molar mass Physical Science chapter 10

Example • What is the mass in grams of 5.60 mol of sulfur? Physical Science chapter 10

Example • How many moles of carbon are in a sample with a mass of 567 g? Physical Science chapter 10

You try • How many moles are in 0.255 g of zinc? Physical Science chapter 10

You try • What is the mass of 1.21 mol of helium? Physical Science chapter 10

Compounds • Also have molar mass • Example: What is the molar mass of carbon dioxide, CO2? • You try: What is the molar mass of hydrogen peroxide, H2O2? Physical Science chapter 10

Bohr model • Neils Bohr – 1913 • Electrons orbit the nucleus like planets orbit the sun Physical Science chapter 10

Energy Levels • Electrons near the nucleus have low energy. • Electrons farther from the nucleus have higher energy. • The electrons are in levels – like floors in a building. • See page 128 • Electrons can be on any level, but they cannot be between levels. Physical Science chapter 10

Energy levels • The levels are not equally spaced, and they cannot all hold the same number of electrons. • The lowest level can only hold 2 electrons. • The second level can hold 8 electrons. • The third level can hold 18 electrons. Physical Science chapter 10

Valence electrons • Electrons in the outer energy level of an atom • Determine the chemical properties of an atom Physical Science chapter 10

Electron cloud model • Represents the probable locations of electrons within an atom. • We never know for sure exactly where an electron is because it is so small and it moves so fast. Physical Science chapter 10

Orbitals • Spaces in each energy level than electrons occupy • Each orbital can hold two electrons Physical Science chapter 10

S orbital • Spherical • Each energy level has one • Can hold 2 electrons Physical Science chapter 10

P orbital • Dumbbell shaped • Found in level 2 and up • Can have three orientations in space • Each p orbital can hold 2 electrons • Total of 6 electrons can be in the p orbitals in an energy level Physical Science chapter 10

d and f orbitals • More complex shapes • There are 5 d orbitals and 7 f orbitals • d start in level 3 • f start in level 4 Physical Science chapter 10

Electron Energy States • Ground state – Lowest energy state of an electron • Excited state – higher energy state than the ground state Physical Science chapter 10

Electron Transitions • Energy gain • Photon absorbed • Electron “rides up the elevator” to a higher energy state • Energy loss • Photon emitted • Electron “rides down the elevator” to a lower energy level • The amount of energy in the photon determines how many levels the electron moves Physical Science chapter 10

Spectral Analysis • Each element has a unique atomic structure and a unique set of energy levels. • Therefore, different atoms emit photons of different energy. • Photons of different energy have different wavelengths (colors). • An element can be identified by the colors it emits as its electrons lose energy. Physical Science chapter 10

Sample Spectra Physical Science chapter 10

Discuss • State two key features of the modern model of the atom. • Describe what happens when an electron jumps from one energy level to another. Physical Science chapter 10

Atoms

Atoms

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atoms

ATOMS

Atoms

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Atoms

ATOMS

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Atoms

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Atoms!

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