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... 22. Numbers that precede symbols and formulas in a chemical equation are ______________. 23. A chemical reaction in which two or more substances combine to form another substance is called a ___________________. 24. According to the law of conservation of mass, if two atoms of hydrogen are on the re ...

Atomic structure and periodic table

... Build up of electrons in shells  The horizontal rows are called periods (numbered from 1-7)  Each period represents the filling of one electron shell  Shell number 1 can contain only 2 electrons, therefore period one has only 2 elements, hydrogen and helium.  Shell number 2 can contain 8 electro ...

Isotopes

... What are isotopes? ...

WARM UP 9/17

... because of too many or not enough electrons (makes the atom more reactive) ANION – Too many e- , so charge is negative ...

Classification of Matter

... Chemical Properties - Characteristics of a substance that do change the chemical makeup of the substance. How a material reacts or fails to react in the presence of another material to form a ...

General_Chemistry_Text_Assignments_-_HOLT

... Topic 4: The Mole and Stoichiometry ...

Name

... identify substances and determine the number of atoms of each element. Ⓡ 8.5 (E) Chemical Reactions: Students will be able to investigate how evidences of chemical reactions indicate that new substances are formed. Ⓡ 8.5 (F) Balancing Equations: Students will be able to recognize whether or not a ch ...

Terminology 1

... (The chemical identity of an atom can be determined solely by it’s atomic number) When the atom is neutral, i.e. not electrically charged, the atomic number equals the number of electrons in its shells ...

Notes matter energy

... point, poor conductors of heat and electricity, not malleable, not ductile, and 11 nonmetals occur in the gaseous state. 2. A chemical property of nonmetals is that they tend to become negatively charged in compounds. Metalloids have physical and chemical properties in between metals and nonmetals. ...

Naming Ionic Compounds

... ** this is just like you learned for molecular compounds except you are not worried about the numbers of an element examples: NaCl – sodium chloride CaCl2 – calcium chloride Mg3N2 – magnesium nitride PbO – lead oxide ...

Chemical Compounds

... together. There are three types. Do you remember them? S Covalent S Ionic S Van der waals-(we wont look at this) ...

Science 9 Unit B 2.0 - Vegreville Composite High

... • In 1814 Berzelius suggested using letters rather than symbols • the first letter is capitalized • if two elements had the same first letter (like Hydrogen and Helium) then the second letter would be used • this system is still in use today ...

The History of the Atom

... Atomic theory has evolved significantly over time to our modern theory 400 BC: Democritus  If ...

Document

... The data in ____________ show that _______________________________ have about the same _________. The masses of an atom’s electrons are negligible (doesn’t count) compared to an __________________. An atom’s ______________ and _____________ are packed tightly _____________________________. Visualize ...

Chapter 5 “Atomic Structure and the Periodic table”

... numbers of neutrons (which means different mass numbers) These are called isotopes. isotopes. Naming Isotopes ...

Name ____ Date

... I can Statements (You should be able to do these things at the end of the unit.) STANDARD 1: Students will understand that all matter in the universe has a common origin and is made of atoms, which have structure and can be systematically arranged on the periodic table. ...

study guide - atomic srtucture/_classification of matter

... idea that all things were made of particles too small to see. He was laughed at. In the 1800’s John Dalton proposed the idea of the “Atomic Theory”. He had 5 theories, 3 of which are still believed today. They are: 1. All matter is composed of extremely small particles too small to see 2. In reactio ...

Chemistry Test Review – 8th Science Vocabulary: Element atom

... proton neutron electron subatomic particles atomic number atomic mass unit atomic mass mass number valence electron valence shell octet rule period shell/energy level group/family metals nonmetals metalloids Bohr model of the atom Lewis Dot Diagrams of an atom Representative elements Transition elem ...

Elements

... CO2 NaCl ...

Inside the Atom

... 2. Isotopes – atoms of the same element that have different numbers of neutrons 3. Mass number – number of protons plus number of neutrons 4. Atomic mass – the number found below the element symbol a. The average mass of an atom of an element b. The unit used for atomic mass is the atomic mass unit ...

Atoms, Elements, and the Periodic Table Part 1: The Atomic Model

... What is the most common chlorine isotope? Chlorine is found in roughly equal amounts. ...

Glencoe Chapter 4 Structure of the Atom for the Wiki

... What did Lavoisier and Proust finding explain? Basis for atomic theory. • All matter is composed of extreme small particles called atoms, which cannot be subdivided, created, or destroyed. • Atoms of a given element are identical in their physical and chemical properties. • Atoms of different elemen ...

What are Elements

... He defined elements as pure substances that cannot be decomposed into simpler substances by means of a chemical change. His careful measurement of mass, allowed him to make accurate inferences about what was happening to the substances. The law of Definite Composition • Compounds are pure substances ...

Getting to Know: Periodic Table

... tells you something about how its atom’s electrons are ...

< 1 ... 212 213 214 215 216 217 218 219 220 ... 238 >

Chemical element

A chemical element (or element) is a chemical substance consisting of atoms having the same number of protons in their atomic nuclei (i.e. the same atomic number, Z). There are 118 elements that have been identified, of which the first 94 occur naturally on Earth with the remaining 24 being synthetic elements. There are 80 elements that have at least one stable isotope and 38 that have exclusively radioactive isotopes, which decay over time into other elements. Iron is the most abundant element (by mass) making up the Earth, while oxygen is the most common element in the crust of the earth.Chemical elements constitute approximately 15% of the matter in the universe: the remainder is dark matter, the composition of it is unknown, but it is not composed of chemical elements.The two lightest elements, hydrogen and helium were mostly formed in the Big Bang and are the most common elements in the universe. The next three elements (lithium, beryllium and boron) were formed mostly by cosmic ray spallation, and are thus more rare than those that follow. Formation of elements with from six to twenty six protons occurred and continues to occur in main sequence stars via stellar nucleosynthesis. The high abundance of oxygen, silicon, and iron on Earth reflects their common production in such stars. Elements with greater than twenty six protons are formed by supernova nucleosynthesis in supernovae, which, when they explode, blast these elements far into space as planetary nebulae, where they may become incorporated into planets when they are formed.When different elements are chemically combined, with the atoms held together by chemical bonds, they form chemical compounds. Only a minority of elements are found uncombined as relatively pure minerals. Among the more common of such ""native elements"" are copper, silver, gold, carbon (as coal, graphite, or diamonds), and sulfur. All but a few of the most inert elements, such as noble gases and noble metals, are usually found on Earth in chemically combined form, as chemical compounds. While about 32 of the chemical elements occur on Earth in native uncombined forms, most of these occur as mixtures. For example, atmospheric air is primarily a mixture of nitrogen, oxygen, and argon, and native solid elements occur in alloys, such as that of iron and nickel.The history of the discovery and use of the elements began with primitive human societies that found native elements like carbon, sulfur, copper and gold. Later civilizations extracted elemental copper, tin, lead and iron from their ores by smelting, using charcoal. Alchemists and chemists subsequently identified many more, with almost all of the naturally-occurring elements becoming known by 1900. The properties of the chemical elements are summarized on the periodic table, which organizes the elements by increasing atomic number into rows (""periods"") in which the columns (""groups"") share recurring (""periodic"") physical and chemical properties. Save for unstable radioactive elements with short half-lives, all of the elements are available industrially, most of them in high degrees of purity.

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Chemical element