Matter and Atomic Structure!

Slides:



Advertisements
Similar presentations
Chemistry of Life.
Advertisements

Matter and Atomic Structure
CH. 3 Matter & Atomic Structure Element – a substance that can’t be broken down into simpler substances. –Ex. Au, Cu, O, C, N, H, Na, Cl, F, Ca, Mg, Sn,
Classification of Matter
Protons, electrons, and neutrons
Biochemistry 2.1. Matter Chemical changes in matter are essential to all life processes. Matter: Anything that occupies space and has mass. Mass: The.
Copyright © The McGraw-Hill Companies, Inc. Permission required for reproduction or display. CHAPTER 2.
Atoms and Reactions Test 1a Biology. 1) ____________is anything that occupies space and has mass. Matter.
Chemical Foundations for Cells Chapter 2. You are chemical, and so is every living and nonliving thing in the universe. You are chemical, and so is every.
Chapter 3: Part I Biochemistry. Matter: Anything that has mass and takes up space – can be solid, liquid or gas Atom: Smallest unit of matter that cannot.
T HE C HEMISTRY O F L IFE Chapter 6. A TOMS AND T HEIR I NTERACTIONS Section 6.1.
Unit 2 Chapter 3 Matter and Atomic Structure. VOCAB Matter Periodic table Atom Proton Neutron Element Solid Liquid Gas Sublimation Evaporation Ionic Bond.
Chapter 6.1 Biochemistry. Atoms Atoms: The building blocks of matter and the smallest particle of an element that exhibits characteristics of that element.
CHAPTER 2 - CHEMISTRY  2-1: Composition of Matter  2-2: Energy  2-3: Water + Solutions.
CHAPTER 2 COMPOSITION OF MATTER MATTER- anything that occupies space and has mass MASS- quantity of matter an object has ELEMENT- a pure substance that.
Section Objectives: Relate the structure of an atom to the identity of elements. Relate the formation of covalent and ionic chemical bonds to the stability.
Chapter 3 Section 2.
CHAPTER 2 LECTURE SLIDES
The Nature of Molecules
Elements and Atomic Structure
Atoms, Element, Compounds, & Chemical Reactions
The Chemical Basis of Life
Chapter 2 chemistry of Life
Chapter 2 – The Chemical Context of Life
Chemistry of Life Chapter 2.
Chapter 1: The Chemistry of Life
What are elements? Element: Substance that cannot be broken down into a simpler form by ordinary chemical means. All matter is made of elements 92 naturally.
Chapter 2: Chemistry of Life
Section 1: What is a mineral? Section 2: Types of Minerals
Ch. 2 Matter Earth Science.
All living things are made up of MATTER. MATTER: *has mass *takes up space *made up of Atoms *has three states: solid, liquid & gas *can be made.
Environmental Systems
MATTER AND ATOMIC STRUCTURE matter = anything that takes up space and has mass; amount determines mass of object.
Chemistry of Life Biology A.
2.1 – Matter all objects are made of matter
Matter.
The Nature of Molecules and the Properties of Water
Chemistry of Life Basic Chemistry.
Matter and Atomic Structure!
2.1 – Matter.
The Chemical Context of Life
Matter and Atomic Structure
How Matter is Organized
Chapter 3: Part I Biochemistry.
Section 2: Combining Matter
Lesson 2.1: Basic Chemistry
2.1 – The Nature of Matter.
Matter and Atomic Structure!
What are isotopes. Do Now: What is the smallest part of matter
Chemistry.
Earth Science Chapter 3 Section 2
Chemistry Vocabulary part 1
Elements Element- A pure substance that cannot be broken down into any other substances by ordinary chemical or physical means Elements are pure substances,
Chemistry for Life Chapter 2
How Atoms Combine.
Biology Basic Chemistry.
CH. 3 Matter & Atomic Structure
The Chemical Basis of Life
The Chemical Basis of Life
Chapter 2 Matter.
Chemistry of Life Chapter 2.
Chapter 2: Chemistry of Life
Chemistry of Life Biology A.
Basic Chemistry Ch. 2.
Organisms are composed of Elements in combinations called compounds
The Chemical Level of Organization
Chapter 4 Earth Chemistry.
Biology Basic Chemistry.
The Chemistry of Biology
Biology Basic Chemistry.
Presentation transcript:

Matter and Atomic Structure! Chapter 3! Matter and Atomic Structure!

An element is a substance that cannot be broken down into simpler substances. All matter is made of substances called atoms. The basic building blocks of matter are atoms.

Atoms are made up of protons, neutrons, and electrons Atoms are made up of protons, neutrons, and electrons. Protons and neutrons are located within the nucleus of an atom. Electrons are found in energy levels surrounding the nucleus. An atom of Lithium

The nucleus of an atom is made up of protons and neutrons. A tiny particle that has mass and a positive electrical charge is a proton. The nucleus of an atom is made up of protons and neutrons. An atom of Lithium The combined number of protons and neutrons is the mass number.

All atomic nuclei have a positive charge because they are made up of neutrons and protons.

An energy level represents the area in an atom where the electron is most likely to be found. Electrons tend to occupy the lowest available energy level.

All elements are mixtures of isotopes. Isotopes are different types of atoms of the same chemical element, each having a different number of neutrons. All elements are mixtures of isotopes.

The chemical behavior of different elements is determined by the number of electrons in the outermost energy level (valence electrons).

Elements with the same number of valence electrons have similar chemical properties .

Radioactive Decay During radioactive decay, a nucleus can gain or lose protons and neutrons.

Half-Life Half-life refers to the time it takes for approximately half of radioactive material to decay to a lighter more stable nuclei. The materials we refer to are unstable radioactive elements.

Molecules versus Atoms Molecules versus Atoms Both are terms used to describe the particles that make up the universe. Atom - the smallest particle of a chemical element Molecule - a group of atoms chemically bonded together the smallest fundamental unit of a compound Water H2O Nitrogen N2

Most compounds have different properties from the elements of which they are composed. Common Table Salt NaCl Water H2O

A combination of two or more components that retain their identity is a mixture.

Granite is an example of a heterogeneous mixture.

In a heterogeneous mixture the components are still recognizable.

In a homogeneous mixture, also called a solution, the component particles cannot be distinguished

Bonds Ionic Transfer of electrons Covalent Sharing of electrons

A covalent bond is the attraction of two atoms for a shared pair of electrons that hold the atom together. When atoms in a covalent bond do not share electrons equally, they form a polar molecule. Water H2O

A molecule of chlorine gas is made up of pairs of chlorine atoms in which each atom shares one of its seven electrons to form a covalent bond. Cl Cl

When Na+ and Cl- combine to form NaCl, this is an example of an ionic bond.

An atom that gains or loses an electron is a charged particle called an ion. An atom in which the outermost energy level is more than half full tends to form negative ions.

Solutions containing a substance that produces hydrogen ions (H+) in water are acids. Solutions characterized by the formation of hydroxide ions (OH-) are bases.

H+(aq) + OH-(aq)  H2O(l) A base can neutralize an acid by combining with hydrogen ions of the acid to form water.

States of Matter Matter exists in four states in the universe.

Example: Table salt is a solid with a crystalline structure. Most solids have a crystalline structure Example: Table salt is a solid with a crystalline structure.

Liquid Densely packed, ever-changing arrangements of atoms and molecules are liquids.

Gas Atoms or molecules always occupy the whole of the space in which they are contained.

STATE CHANGES From a solid to a liquid – melting From a liquid to a solid – freezing From a liquid to a gas – evaporation From a gas to a liquid – condensation From a gas to a solid – deposition From a solid to a gas - sublimation

The corona around the Sun is formed from plasma. Plasma is extremely hot, highly ionized, electrically conducting gases Lightning Neon Signs The corona around the Sun is formed from plasma.

Conservation of energy – Matter can be changed from one form to another but cannot be created or destroyed.