
Physical Science Chapters 4
... Physical Science Chapters 4-5 Study Guide 1. Know all vocabulary from chapters 4-5. ...
... Physical Science Chapters 4-5 Study Guide 1. Know all vocabulary from chapters 4-5. ...
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... tightly bound to the nucleus (more p+ in the nucleus). Down a group, IE decreases because electrons are farther from the nucleus and not held as tight. Values are found on Table S. ...
... tightly bound to the nucleus (more p+ in the nucleus). Down a group, IE decreases because electrons are farther from the nucleus and not held as tight. Values are found on Table S. ...
Periodic Table Test Chemistry 1 1. What is the horizontal row in the
... 1. What is the horizontal row in the periodic table? 2. What is the vertical column in the periodic table? 3. What states that the repetition of properties occurs when elements are arranged in order of increasing atomic number? 4. What type of element is a good conductor of heat and electric current ...
... 1. What is the horizontal row in the periodic table? 2. What is the vertical column in the periodic table? 3. What states that the repetition of properties occurs when elements are arranged in order of increasing atomic number? 4. What type of element is a good conductor of heat and electric current ...
The placement of an element on the periodic table gives clues about
... These periods consist of as few as two elements and as many as thirty-two elements. The repeating pattern across the periods of the periodic table is the filling of each energy level with electrons. For example, since hydrogen and helium are in period 1, they only have electrons in the 1st energy le ...
... These periods consist of as few as two elements and as many as thirty-two elements. The repeating pattern across the periods of the periodic table is the filling of each energy level with electrons. For example, since hydrogen and helium are in period 1, they only have electrons in the 1st energy le ...
Int. Sci. 9 Modern Periodic Table Powerpoint
... Elements that occur naturally and those that do not – all but 2 w/ atomic # 1-92 occur on Earth naturally; elements # 93 & higher do not Metals, Nonmetals, and Metalloids Pg 133 in your textbook ...
... Elements that occur naturally and those that do not – all but 2 w/ atomic # 1-92 occur on Earth naturally; elements # 93 & higher do not Metals, Nonmetals, and Metalloids Pg 133 in your textbook ...
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... 2. Identify each element as a metal, metalloid, or nonmetal. a) fluorine b) germanium c) zinc d) phosphorous e) lithium 3. Give two examples of elements for each category. a) noble gases b) halogens c) alkali metals d) alkaline earth metals 4. The halogen family or halides form salts with which othe ...
... 2. Identify each element as a metal, metalloid, or nonmetal. a) fluorine b) germanium c) zinc d) phosphorous e) lithium 3. Give two examples of elements for each category. a) noble gases b) halogens c) alkali metals d) alkaline earth metals 4. The halogen family or halides form salts with which othe ...
The Periodic Table
... nonmetals are gases. • General Properties: • Not shiny (dull) • Not malleable (brittle) • Not ductile • Poor conductors of electricity. ...
... nonmetals are gases. • General Properties: • Not shiny (dull) • Not malleable (brittle) • Not ductile • Poor conductors of electricity. ...
Name: Chemistry A Date: Period: Unit 1 Test Review Packet
... atomic number and atomic mass. 1b Students know how to use the periodic table to identify metals, semimetals, nonmetals, and halogens. 1c Students know how to use the periodic table to identify alkali metals, alkaline earth metals and transition metals, trends in ionization energy, electronegativity ...
... atomic number and atomic mass. 1b Students know how to use the periodic table to identify metals, semimetals, nonmetals, and halogens. 1c Students know how to use the periodic table to identify alkali metals, alkaline earth metals and transition metals, trends in ionization energy, electronegativity ...
February 25 – Periodicity
... • it is often place in group 1of the periodic table, although it is not a metal • it can form compounds with halogens, just as the metals of group 1 • it could also be place in group 17 (the halogens) because it can also react with metals, such as sodium, and non-metals, such as nitrogen • because o ...
... • it is often place in group 1of the periodic table, although it is not a metal • it can form compounds with halogens, just as the metals of group 1 • it could also be place in group 17 (the halogens) because it can also react with metals, such as sodium, and non-metals, such as nitrogen • because o ...
periodicity
... • Ionization Energy - energy needed to remove 1 e- from a neutral atom • Increases from bottom to top in a group. • Increases from left to right across a period. ...
... • Ionization Energy - energy needed to remove 1 e- from a neutral atom • Increases from bottom to top in a group. • Increases from left to right across a period. ...
NAME: Unit 3 Test Review Arsenic (As), Selenium (Se), and
... 19. Below you need to draw Sodium, Oxygen, and Lithium. You must show the electron levels, draw the number of electrons, protons, and neutrons. You need to use “+” for protons, “-” for electrons, and “o” for neutrons. ...
... 19. Below you need to draw Sodium, Oxygen, and Lithium. You must show the electron levels, draw the number of electrons, protons, and neutrons. You need to use “+” for protons, “-” for electrons, and “o” for neutrons. ...
Study Guide Answers
... List the properties of a metalloid. Where are they located on the Periodic Table? Metalloids are located on either side of the Boron Stair step have properties of both metals and nonmetals. ● they are solids that can be shiny or dull ● they conduct heat and electricity better than nonmetals, but no ...
... List the properties of a metalloid. Where are they located on the Periodic Table? Metalloids are located on either side of the Boron Stair step have properties of both metals and nonmetals. ● they are solids that can be shiny or dull ● they conduct heat and electricity better than nonmetals, but no ...
Standard EPS Shell Presentation
... Remember, the atomic number is the number of protons all atoms of that element have in their nuclei. If the atom is neutral, it will have the same number of electrons as protons. ...
... Remember, the atomic number is the number of protons all atoms of that element have in their nuclei. If the atom is neutral, it will have the same number of electrons as protons. ...
Document
... Know the mass (a.m.u), location, and charge of each particle in the atom. Determine the mass number of an atom given the number of protons, electrons, and neutrons. Know the definition of an isotope and be able to recognize if an element is an isotope or a different element. Recognize the definition ...
... Know the mass (a.m.u), location, and charge of each particle in the atom. Determine the mass number of an atom given the number of protons, electrons, and neutrons. Know the definition of an isotope and be able to recognize if an element is an isotope or a different element. Recognize the definition ...
AKS Review
... Groups(families)- vertical column on periodic table. Elements in the same family have similar properties because they have the same valence electron configuration Periodic law- “Properties of elements are a Periodic Function of the atomic number.” When elements are arranged by increasing atomic numb ...
... Groups(families)- vertical column on periodic table. Elements in the same family have similar properties because they have the same valence electron configuration Periodic law- “Properties of elements are a Periodic Function of the atomic number.” When elements are arranged by increasing atomic numb ...
Post-Lab Questions
... The modern periodic table lists more than 118 elements, of which 92 are naturally occurring. Of these 92 elements, the eight most abundant elements together account for more than 98 percent of the mass of the Earth’s crust, oceans, and atmosphere. Two of the eight most abundant elements on Earth are ...
... The modern periodic table lists more than 118 elements, of which 92 are naturally occurring. Of these 92 elements, the eight most abundant elements together account for more than 98 percent of the mass of the Earth’s crust, oceans, and atmosphere. Two of the eight most abundant elements on Earth are ...
Periodic Table Notes
... the left and below the metalloid line. Two elements are liquid at room temperature: mercury and bromine. Several elements are gases at room temperature: hydrogen, helium, ...
... the left and below the metalloid line. Two elements are liquid at room temperature: mercury and bromine. Several elements are gases at room temperature: hydrogen, helium, ...
Chapter 13
... outermost s sublevel and the nearby d sublevel contain electrons (Groups 3-12) 4. Inner transition metals – elements whose outermost s sublevel and nearby f sublevel contain electrons… the two rows below the table ...
... outermost s sublevel and the nearby d sublevel contain electrons (Groups 3-12) 4. Inner transition metals – elements whose outermost s sublevel and nearby f sublevel contain electrons… the two rows below the table ...
The Periodic Table
... Hydrogen is a diatomic, reactive gas. Hydrogen reacts violently with oxygen. The hot water vapor that forms as a result pushed the space shuttle into orbit. Placed above the group 1 elements because it has only 1 electron in it’s valance shell and can give one away Properties are more like atoms of ...
... Hydrogen is a diatomic, reactive gas. Hydrogen reacts violently with oxygen. The hot water vapor that forms as a result pushed the space shuttle into orbit. Placed above the group 1 elements because it has only 1 electron in it’s valance shell and can give one away Properties are more like atoms of ...
Periodic Table Notes
... that are to the right of the zigzag on the periodic table ► Not shiny, dull in appearance ► Do not conduct heat or electricity ► Are brittle and break easily ► Cannot be drawn into wire or hammered ...
... that are to the right of the zigzag on the periodic table ► Not shiny, dull in appearance ► Do not conduct heat or electricity ► Are brittle and break easily ► Cannot be drawn into wire or hammered ...
The History and Arrangement of the Periodic Table
... that are to the right of the zigzag on the periodic table ► Not shiny, dull in appearance ► Do not conduct heat or electricity ► Are brittle and break easily ► Cannot be drawn into wire or hammered ...
... that are to the right of the zigzag on the periodic table ► Not shiny, dull in appearance ► Do not conduct heat or electricity ► Are brittle and break easily ► Cannot be drawn into wire or hammered ...
Arrangement of the Periodic Table
... that are to the right of the zigzag on the periodic table ► Not shiny, dull in appearance ► Do not conduct heat or electricity ► Are brittle and break easily ► Cannot be drawn into wire or hammered ...
... that are to the right of the zigzag on the periodic table ► Not shiny, dull in appearance ► Do not conduct heat or electricity ► Are brittle and break easily ► Cannot be drawn into wire or hammered ...
Chapter 4- The Periodic Table Section 1
... Transition metals- one of the metals that can use the inner shell before using the outer shell in a bond ...
... Transition metals- one of the metals that can use the inner shell before using the outer shell in a bond ...
Development of the Periodic Table
... number) The vertical columns are called groups or families (organized by chemical properties) Periodic Law: when the elements are arranged in order of increasing atomic number, there is a periodic pattern in their physical and chemical properties ...
... number) The vertical columns are called groups or families (organized by chemical properties) Periodic Law: when the elements are arranged in order of increasing atomic number, there is a periodic pattern in their physical and chemical properties ...