August 2010 Regents Exam part 1

... (3) Energy is absorbed as bonds are broken. Energy is a reactant, it is absorbed. (4) Energy is absorbed as bonds are formed. ...

answer key - El Camino College

... combine in the ratio of small, whole numbers to form compounds. ...

Chemical Equation

... • Symbols for the elements  One or two letters, the first letter is capitalized  In 1813, JJ Berzelius, a Swedish chemist developed the modern symbols for designated elements. ...

4-3-Isotopes

... Same Element Different AtomIsotopes All atoms of a particular element are not exactly alike. Some elements have atoms with different masses (isotopes) ...

Isotopes-Chemistry

... Same Element Different AtomIsotopes All atoms of a particular element are not exactly alike. Some elements have atoms with different masses (isotopes) ...

atomic number - iGCSE Science Courses

... 1) The atomic number tells you how many protons there are. 2) This also tells you how many electrons there are. 3) To get the number of neutrons – just subtract the atomic number from the mass number. 4) The mass number is always the biggest number. It tells you the relative mass of the atom. 5) The ...

Subject Area Assessment Guides

... or inter-atomic forces. When enough energy is added to the solid, the kinetic energy of the atoms and molecules increases sufficiently to overcome the attractive forces between the particles, and they break free of their fixed lattice positions. This ...

Chem 1 Worksheets WSHEET 1: Working with Numbers Practice

... E. 55.81 mass % Work: 2. J. J. Thomson studied cathode ray particles (electrons) and was able to measure the mass/charge ratio. His results showed that A. the mass/charge ratio varied as the cathode material was changed. B. the charge was always a whole-number multiple of some minimum charge. C. mat ...

The Mole

... The term mole is used to describe a certain amount of matter. That amount is 6.02*1023 of the smallest particles that make up that form of matter. Thus, one mole of an element contains 6.02*1023 atoms; one mole of a molecular compound contains 6.02*1023 molecules; and one mole of an ionic compound c ...

Chapter 4 PPT

... • Charges change in discrete amounts— 1.602  10–19 coulombs, the charge of one electron (now equated to a single unit, 1–). • With the electron’s charge and charge-tomass ratio known, Millikan calculated the mass of a single electron. the mass of ...

Chapter 4 power point notes

... • Charges change in discrete amounts— 1.602  10–19 coulombs, the charge of one electron (now equated to a single unit, 1–). • With the electron’s charge and charge-tomass ratio known, Millikan calculated the mass of a single electron. the mass of ...

ch 4 ppt - Madison County Schools

... • Charges change in discrete amounts— 1.602  10–19 coulombs, the charge of one electron (now equated to a single unit, 1–). • With the electron’s charge and charge-tomass ratio known, Millikan calculated the mass of a single electron. the mass of ...

Ionic bonding - Nidderdale High School

... 5. Ionic compounds are held together by strong E _ _ _ _ _ _ _ _ _ _ _ C forces in all directions between oppositely charged ions. 6. Under what 2 conditions will ionic compounds conduct electricity? 7. Draw a diagram to show the electron arrangement in a fluorine ion. 8. Draw a diagram to show the ...

Periodic Table

... –Included elements Valence # (bonding power) •How many e- the atom can lose or gain when bonding •Pattern appeared - 1234321 ...

CMC Chapter 04

... • Charges change in discrete amounts— 1.602  10–19 coulombs, the charge of one electron (now equated to a single unit, 1–). • With the electron’s charge and charge-tomass ratio known, Millikan calculated the mass of a single electron. the mass of ...

Use the following to answer questions 1-14:

... electrons in the valence shell. ____ 2. Metallic elements form cations. ____ 3. Cations are negatively charged ions. ____ 4. Valence electrons are located in the outermost electron shell of the atom. ____ 5. Noble gases are very stable; other elements give up, gain, or share electrons to acquire a v ...

JEOPARDY

... levels? – *note* this works for science 1 class only because the third energy in reality contains more and you will learn this in chemistry class. Back to game board ...

06.1 - Chemical formulas and composition stoichiometry

... A 0.1647 g sample of hydrocarbon is burned in a C-H combustion train to produce 0.4931 g of CO2 and 0.2691 g of H2O. Determine the masses of C and H in the sample and the percentages of these elements in this hydrocarbon. 1. With a proportion, we use the observed masses to determine the masses of C ...

atomic structure jeopardy

... levels? – *note* this works for science 1 class only because the third energy in reality contains more and you will learn this in chemistry class. Back to game board ...

The Atom Review Packet

... (2) number of neutrons (3) number of protons (4) number of nucleons 8. The atomic number of an atom is equal to the number of (1) neutrons in the atom (2) protons in the atom (3) neutrons plus protons in the atom (4) protons plus electrons in the atom 9. Compared to the entire atom, the nucleus of t ...

File - Grade 12 Chemistry

... 19. What does VSEPR stand for? How is this theory used to predict molecular shape? 20. Draw the Lewis structure for SO2. How many bonded pairs of electrons and how many lone pairs of electrons are around the sulfur atom 21. Draw orbital diagrams and Lewis structures to show how each pair of element ...

four forces in atom ppt

... How do quarks work? ...

Chapter 3: Stoichiometry

... elements from the formula of the compound by comparing the mass of each element present in 1 mole of the compound to the total mass of 1 mole of the compound. 3.5: Determing the Formula of a Compound It is determined by taking a weighed sample of the compound and either decomposing it into its compo ...

atom

... atom or chemically bonded group of atoms by adding or removing one or more electrons. A cation is a positively charged ion formed by losing one or more electrons. A cation is named by its element name followed by the word ion. For example, Na+ is the sodium ion, etc. Under the definition of anion ad ...

ChemistryPPT

... a. Compounds have different properties form the elements that make them. i. compound: a substance made of atoms of 2 or more different elements ii. chemical bonds: hold atoms together in large networks or small groups; determine the properties of a compound. iii. compound properties: depend upon typ ...

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History of molecular theory

In chemistry, the history of molecular theory traces the origins of the concept or idea of the existence of strong chemical bonds between two or more atoms.The modern concept of molecules can be traced back towards pre-scientific Greek philosophers such as Leucippus who argued that all the universe is composed of atoms and voids. Circa 450 BC Empedocles imagined fundamental elements (fire (20px), earth (20px), air (20px), and water (20px)) and ""forces"" of attraction and repulsion allowing the elements to interact. Prior to this, Heraclitus had claimed that fire or change was fundamental to our existence, created through the combination of opposite properties. In the Timaeus, Plato, following Pythagoras, considered mathematical entities such as number, point, line and triangle as the fundamental building blocks or elements of this ephemeral world, and considered the four elements of fire, air, water and earth as states of substances through which the true mathematical principles or elements would pass. A fifth element, the incorruptible quintessence aether, was considered to be the fundamental building block of the heavenly bodies. The viewpoint of Leucippus and Empedocles, along with the aether, was accepted by Aristotle and passed to medieval and renaissance Europe. A modern conceptualization of molecules began to develop in the 19th century along with experimental evidence for pure chemical elements and how individual atoms of different chemical substances such as hydrogen and oxygen can combine to form chemically stable molecules such as water molecules.

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History of molecular theory