Atomic Structure Notes

Slides:

Advertisements

Similar presentations

I love science, Ms. Solari!

Advertisements

The Basic Building Block of Matter

Structure of an Atom.

Structure of an Atom. What Is an Atom? An atom is often referred to as the building block of matter. Atoms have a nucleus surrounded by an electron cloud.

The Chemistry of Life.

DO NOW: Answer the following questions 1. What are the subatomic particles? 2. Where are each subatomic particle located? 3. What is the charge associated.

Ch. 17 – Properties of Atoms and the Periodic Table

The Atom By Miss Buicke. What we must know from the syllabus: OC39 Describe the structure of the atom, state the location, relative charge, and atomic.

Atoms Atoms are the building blocks for the whole Universe.

Explaining the Periodic Table (6.7) If elements are the building blocks of all other matter, what are they made of? There are three particles that make.

I. Structure of the Atom Dalton’s Atomic Theory Subatomic Particles

P. Sci. Unit 8 Chapter 4 Atoms.

Distinguishing Between Atoms

Atoms, Ions, and Molecules

Chemistry of Life Biology Chapter 2.

The Structure of an Atom

Midterm Review Chapter 3 Pg Atomic Theory pg  Atomic Theory – the idea that atoms are the building blocks of all matter  Everything is.

Properties of Atoms and the Periodic Table

The Atom Chapter 4 Sect 1.

Structure of an Atom. What are the fundamental particles of the atom? Proton: Particle with positive electrical charge (+1). Electron: Particle with negative.

Atomic Models Withrow High School Chemistry. 3 basic sub-atomic particles.

Structure of an Atom.

Atoms and Ions. Discovery of atomic structure Atoms – the building blocks All substances are made from very tiny particles called atoms. John Dalton.

Unit 2 Atomic Theory. An atom is… The smallest particle into which an element can be divided. “Building block of matter”

The Atom What is it made of???. Protons  Positively charged  Mass = 1 amu = 1.67 x grams  Located in the nucleus  Gives an atoms its identity.

Vocabulary ATOM-the smallest unit that maintains the characteristics of an element – Nucleus- The center of the atom, contains protons and neutrons –

Atoms, Elements, & Compounds Biology II D. Mitchell.

Bohr Models and Lewis Dot Structures. Atoms ** Basic unit of matter Consists of: Electrons, Protons, & Neutrons.

Unit: The Chemistry of Living Things. I. Composition of Matter Matter—anything that occupies space and has mass Elements—fundamental units of matter ◦

Atomic Structure: Basic Concepts What is an atom? What are atoms made of? Where are protons located and what is their electrical charge? Where are neutrons.

Structure of an Atom. What Is an Atom? An atom is often referred to as the building blocks of matter subatomic proton neutronelectron Atoms are composed.

Atomic Structure Introducing atoms. Atoms – the building blocks All substances are made from very tiny particles called atoms. John Dalton had ideas about.

Exploring Inner Space TEKS 8.5A describe the structure of atoms including the masses, electrical charges and locations, of protons and neutrons in the.

Chapter 2: The Chemistry of Life

Elements & Atoms. Models of the Atom Why do scientists used models? Scientists make models because reality is complex. It is useful to use a model because.

- the smallest unit of an element

Chemistry of Life Honors Biology Chapter 2. Matter Anything that has mass and takes up space.

Matter- the stuff that makes up everything in the universe Element- A substance that cannot be broken down into other substances by chemical or physical.

Outline the history of the atomic model. Agenda for Tuesday Dec 14 th 1.Atoms 2.Atomic mass, #, protons, etc.

The Amazing Atom. Atoms All matter is made of very tiny particles All matter is made of very tiny particles These atoms have the same properties as larger.

Atoms and Molecules: The Chemical Basis of Life. Elements – Substances that cannot be broken down into simpler substances by ordinary chemical reactions.

Chapter 4 Atomic Structure. Atom Atom – smallest part of an element that retains the properties of that element. Atomic Theory – proposed by John Dalton.

Bellwork 10/19/15 Tell me about one or more of your family traditions. Minimum 5 sentences.

Atoms Atom- the smallest part of an element Atoms of one element are different from another element. contains protons, electrons, and neutrons Atomic Mass.

6.2 – Atomic Theory Science 10 Mr. Francis. Atoms are made of component particles called subatomic particles: protons, neutrons, and electrons. Atoms.

Timeline of Atomic Theory  Make sure it has Dates (some may not have dates) Important Peoples Names What they found/discovered/believed to be true The.

Intro to Chemistry Chemistry: The study of.

Atoms, Isotopes, and Bohr!

Structure of an Atom.

Unit 3: The Atom. Atoms All matter is made of very tiny particles All matter is made of very tiny particles These particles have the same properties as.

Bohr-Rutherford Diagrams. In 1913, a Danish scientist named Neils Bohr (1885 – 1962), explained why in the atom electrons do not spiral into the nucleus.

Chapter 5 Atomic Structure & the Periodic Table. 5.1 Atoms are the smallest form of elements years ago, Greek philosophers believed everything was.

P. Sci. Unit 8 Chapter 4 Atoms. Atomic Structure – timeline Ancient Greece - Democritus proposed the atom – a tiny solid particle that could not be subdivided.

The Parts of the Atom. MATTER = ATOM All matter is composed of atoms. Atoms are the smallest part of an element that keeps that element’s properties.

Bohr’s Model of an atom.

1 Atomic Structure and the Elements. 2 What is an atom? An atom is the smallest particle of an element. Atoms make up all matter AMU.

P. Sci. Unit 9 Chapter 4 Atoms. Atomic Structure – timeline Ancient Greece - Democritus proposed the atom – a tiny solid particle that could not be subdivided.

CHEMISTRY. Elements Pure substances that cannot be broken down chemically into simpler kinds of matter More than 100 elements (92 naturally occurring)

Notes: Matter Atoms, Periodic Table of Elements, Ions, and Isotopes.

Each element consists of unique atoms. An atom is the smallest unit of matter that still retains the properties of an element. – Atoms are composed of.

Biochemistry Why do we need to know chemistry in biology? All life functions are driven by chemical reactions.

Unit 3: Atomic Structure. Atomic Structure  element  matter that is composed of one type of atom  atom  the smallest particle of an element that still.

Universe is made of matter 2.1 Matter  Matter exists in one of 3 states  Solid – definite shape & volume  Liquid – definite volume, no definite shape.

Chapter 1: The Chemistry of Life

Atomic Structure.

Atomic Structure.

Composition of Matter Matter - Everything in the universe is composed of matter Matter is anything that occupies space and has mass Mass – quantity of.

Presentation transcript:

Atomic Structure Notes Everything is made of atoms. Atoms are the smallest part of matter. Atoms are made up of 3 subatomic particles (particles smaller than the atom itself): electrons, protons, and neutrons.

This model of the atom looks like a solar system This model of the atom looks like a solar system. The nucleus, which contains the protons and neutrons in the center, would represent the sun. The electrons are the planets spinning around the nucleus.

Negatively charged particles; outside the nucleus; can be gained or lost to and from other atoms; very small mass: 1/2000th of a proton Neutral particles in the nucleus; gives mass to the atom, but not charge.

Count the protons to find out what element this is: # of Protons: Positively charged particles; in the nucleus; determines what element an atom is. Count the protons to find out what element this is: # of Protons: Element: Center of the atom; contains protons and neutrons. 99.9% of mass of an atom

John Dalton in 1808 published a theory of the atom that had these important points: All atoms of a particular element are the same. Atoms of different elements have different properties, mass, and chemical reactivity. Atoms are not changed by chemical reactions, just rearranged in order or number.

Niels Bohr in 1913 hypothesized that electrons traveled in fixed orbits around the atom’s nucleus.

Reading Element Tiles Element Name Atomic Number (number of protons) Chemical Symbol Atomic Number (number of protons) Atomic Mass

When thinking about the small masses of atoms, scientists found that even grams were not small enough to use for measurement. The unit of measurement used for atomic particles is the atomic mass unit (amu). The mass of a proton or a neutron is almost equal to 1 amu.

Atomic mass—weighted average mass (of the mixture of an element’s Atomic mass—weighted average mass (of the mixture of an element’s *isotopes) Use the atomic mass and the atomic number to find the number of neutrons. Formula: # of Neutrons = Atomic Mass (Rounded to whole #) – Atomic number

The number of protons tells you what type of atom you have and vice versa. Example: Every carbon atom has six protons and all atoms with six protons are carbon atoms. Atomic number—the number of protons in an atom

# of electrons = # of protons Bohr’s Model # of electrons = # of protons In a neutral atom there is one electron for every proton.

Electric charges work just like magnets; opposites attract and like charges repel. Since protons are positive and electrons are negative, protons attract electrons. Protons repel protons; electrons repel electrons.

Because of electron-to-electron repulsion, electrons don’t crowd around the nucleus as their number increase. Instead, they fill up orbits. Each orbit can hold a certain number of electrons, then that orbit is full. This is because even though as the number of protons increases (attraction), the number of electrons also increases (repulsion).

Electron Distribution: The most inner orbit can hold two electrons ***Electron Distribution: The most inner orbit can hold two electrons. The second orbit can hold up to eight electrons to be considered full. The 3rd orbit, or energy level, can hold eighteen electrons but only needs eight to be considered full.

Isotopes Atoms of the same element will always have the same atomic number, but may have different mass numbers. Atoms of the same element, which differ in mass number, are called isotopes. Their atomic masses differ, however, because they have slightly different number of neutrons. The atomic mass of any element is the average of the weighted sum of the atomic masses of its various isotopes.

Example: One isotope of an element—for example, carbon-12—is far more abundant than the others because natural processes favor that particular isotope. These three carbon isotopes all have the same number of protons and thus the same atomic number, 6.

Lewis Structure The Lewis Structure (also called an electron dot diagram) uses the symbol of the element and dots to represent the valence electrons (electrons in the outer energy level). To make an electron dot diagram: Write the symbol. Write a dot to symbolize each electron. Rule: The electrons will not pair up until they have to.

Ex: Let’s start with Phosphorus – P. Phosphorus has an Atomic Number of 15 (number of protons), thus, having 15 electrons. Draw a Bohr’s model of Phosphorus. How many valence electrons are there? _____

Place the first four electrons around the symbol starting at the top. Then place the remaining electron starting on the top again.

Ex: Try Magnesium – Mg. # of electrons = _____ Bohr’s model of Magnesium: # of valence electrons = _____ Lewis Structure of Magnesium:

– simplest and purest substance that CANNOT be broken down or changed into simpler substances. – smallest particle of an element – basic building block of matter are made of Subatomic particles located in the – 99.9 % of mass – shells or orbitals = Atomic Number …has a ___ charge sum of is Mass Number The average of all known isotopes is the In a neutral atom the # of ____________ equals the # of _____________

Atomic Structure Notes - Learning Log Everything is made of ________. Atoms are the smallest part of____________. Atoms are made up of 3 subatomic particles called ____________, ____________, _____________. The negatively charged particles are called _________________. The electrons are located _________________ the nucleus. The electrons can be ____________ or ____________. Electrons are ( SMALLER or LARGER ) than a proton. The positively charged particles are in the ____________. Protons are important because they determine what _______________ an atom is. The protons and the ______________ are in the nucleus.

The neutrons provide _____________, but not ____________. ___________ ____________ published the theory of the atom that had these important points: ___________________________________________________ The atomic number is equal to ___________________________. The mass number is equal to _____________________________. Number of Protons is equal to ____________________________. Opposites charges attract and like repel; therefore, protons __________ electrons but protons ___________ protons; electrons ______________ electrons.

Sketch a picture showing how attraction and repulsion work. Explain the distribution of electrons in their orbits. ____________________________________________________ Attraction Repulsion Sketch hydrogen showing the equality of electrons and protons. Sketch the correct filling of the orbits with the lithium model.

Find the missing number of… Element Symbol Atomic Number Atomic Mass Number of Protons Number of Neutrons Number of Electrons Hydrogen H 1 1.0 Helium He 2 4.0 Lithium Li 3 6.9 Beryllium Be 4 9.0 Boron B 5 10.8 Carbon C 6 12.0 Nitrogen N 7 14.0 Oxygen O 8 16.0 Fluorine F 9 19.0 Neon Ne 10 20.2 Sodium Na 11 23.0 Chlorine Cl 17 35.5 Lead Pb 82 207.2 Uranium U 92 238.0