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Matter
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Vocabulary Matter Atomic number Ionic bond Element Symbol
Covalent bond Energy level Compound Metallic bond Isotope Chemical bond Radioactive decay Mass number Ion
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What is an element? Elements and the Periodic Table
Matter is anything that has volume and mass. An element is a substance that cannot be broken down into simpler substances by chemical or physical means. Elements are organized by their chemical properties into the periodic table Periodic Table Each element has a symbol, a shorthand way of representing an element Rows are called periods Columns are called groups.
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Asap science, periodic table song: https://www. youtube. com/watch
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What is an element? Elements and the Periodic Table Of the known elements, only eight make up most of Earth’s continental crust. These eight elements are listed in Table 1. Notice that 6 of the 8 elements are classified as metals. Metals have specific properties such as the ability to be shaped (malleability) and drawn into wire. Metals are also good conductors of heat and electricity.
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What particles make up atoms?
An atom is the smallest particle of matter that contains the characteristics of an element.
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What particles make up atoms?
An atom is the smallest particle of matter that contains the characteristics of an element. Atom’s nucleus (neutrons and protons) A proton has a positive charge. A neutron has no charge. A proton has about the same mass as a neutron. Each element has an atomic number, number of protons in an atom’s nucleus. Atoms have the same number of protons and electrons.
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What particles make up atoms?
Electrons The size of an atom depends on the number and arrangement of its electrons. Interactions among electrons in the outermost energy levels explains how atoms form compounds. Electrons are located in regions called energy-levels First energy level holds up to 2 elctrons 2nd energy level holds up to 8 electrons 3rd energy level can hold up to 18 electrons 4th energy level can hold up to 32
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What are isotopes? Atoms with the same number of protons but different numbers of neutrons are isotopes of an element. Isotopes of the same element are labeled using the mass number with the element’s symbol or name. The mass number of an atom is the total mass of the atom (protons plus neutrons) expressed in atomic number mass units. Most elements are mixtures of isotopes.
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What are isotopes?
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What radioactive decay?
The nuclei of some isotopes are unstable and tend to break down. When this happens, the isotope also emits energy in the form of radiation. Radioactive decay is the spontaneous process through which unstable nuclei emit radiation. In the process of radioactive decay, a nucleus will either lose protons or neutrons, change a proton to a neutron or change a neutron to a proton.
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What radioactive decay?
Radioactive decay can change the identity of an element. The rate at which at which unstable atoms decay are measurable. Certain radioactive atoms can be used to determine the ages of fossils, rocks and minerals. Some of this energy powers the movements of Earth’s crust and upper mantle.
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What are compounds and why do they form?
A compound is a substance that consists of two or more elements that are chemically combined in specific proportions. Compounds form when atoms are more stable (exist at a lower energy state) in a combined form. The chemical process, called bonding, centers around the electron arrangements of atoms. Thus, when atoms combine with others to form compounds, they gain, lose or share electrons.
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What are compounds and why do they form?
Elements that have full outermost energy levels are highly unreactive. Found on the right side of the periodic table in Group 8A (18) Scientists explain why atoms form compounds by considering how an atom undergoes changes to its electron structure to be more like atoms in Group 8A
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What are compounds and why do they form?
When an atom’s outer-most energy level does not contain the maximum number of electrons, the atom is likely to form a chemical bond with one or more other atoms. Chemical bonds can be though of as the forces that hold atoms together in a compound Ionic bonds Covalent bonds Metallic bonds
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What are compounds and why do they form?
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How do chemical bonds differ?
Ionic bonds form between positive and negative ions. An atom that gains electrons becomes negatively charged; atom has more electrons (-) than protons (+) An atom that loses electrons becomes negatively positively charged; atom has more protons (+) than electrons (-) An atom that has an electrical charge because of a gain or loss of one or more electrons is called an ion. Oppositely charged ions attract each other to form crystalline compounds. Ionic compounds are rigid solids with high melting points and boiling points Poor conductors of electricity in solid state; however when melted is a good electrical conductor.
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How do chemical bonds differ?
Ionic bonds form between positive and negative ions. Common compounds table salt, chemical name sodium chloride (NaCl) or mineral name halite Sodium is unstable and reactive; sodium loses one electron and becomes a positive ion. Chlorine atoms gain one electron and becomes a negative ion. These oppositely charged ions are attracted to each other and form the compound called sodium chloride
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How do chemical bonds differ?
Ionic bonds form between positive and negative ions.
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How do chemical bonds differ?
Covalent bonds form when atoms share electrons Compounds with covalent bonds are called covalent compounds Silicone dioxide forms when one silicon atom and two oxygen atoms share electrons in their outermost energy levels. Silicon dioxide is also know as mineral quartz Low melting point and boiling points Poor conductors of electricity, even when melted Water has a covalent bond Smallest unit is a molecule, a neutral group of atoms joined by one or more covalent bonds Water, 2 hydrogen atoms covalently-bonded to one oxygen of atom:
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How do chemical bonds differ?
Covalent bonds form when atoms share electrons
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How do chemical bonds differ?
Metallic bonds form when electrons are shared by metal ions Malleable, can be shaped Ductile, can be drawn into thin wires without breaking Excellent electrical conductors The sharing of an electron pool gives metals their characteristic properties.
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