synoptic - chemnotes.org.uk

... A covalent bond is a shared pair of electrons Covalent bonds hold atoms together because both nuclei are attracted to the shared pair of electrons The strength of the bond depends on the strength of attraction between the nuclei and the shared pair Down a group attraction for the shared pair will de ...

2.1 The nuclear atom.notebook

... 7 October 1885 – 18 November 1962 ...

atom and e

... mechanics into the atomic model. He proposed the idea that electrons were only allowed to orbit the nucleus at certain energy levels. Instead of an infinite number of possible orbits, only certain orbits were allowed. (“quantizing the atom”) Electrons could only jump to a higher energy orbit if they ...

Physics 1425: General Physics I

... electrical experiments, some of them crazy, and coined the terms positively charged (meaning, we now know, deficient in electrons) and negatively charged (having extra electrons). ...

Properties of the Physical Universe

... The main properties of an atom are defined by the contents of its nucleus. In fact, the type of element an atom is defined to be is dictated by the number of protons in the nucleus. This property is called the atomic number (Z). For example, the element Hydrogen is defined as an atom that possesses ...

WS for 10/14 Sun (dot structures, geometry)

... 1. Indicate how many valence electrons are in the following compounds/elements.  C ___ electrons  F ___ electrons ...

Date: ______ Properties of the Physical Universe: Matter Relative

... The main properties of an atom are defined by the contents of its nucleus. In fact, the type of element an atom is defined to be is dictated by the number of protons in the nucleus. This property is called the atomic number (Z). For example, the element Hydrogen is defined as an atom that possesses ...

Unit One: Atomic Theory/Configuration

... • The three carbon atoms are ISOTOPES of carbon. – Definition: atoms of the same element that have different numbers of neutrons – Application: Does the difference of electrons matter when considering ISOTOPES? • Since neutrons are massive, a change in the number of neutrons gives a different mass n ...

Introducing Charge - Galileo and Einstein

... electrical experiments, some of them crazy, and coined the terms positively charged (meaning, we now know, deficient in electrons) and negatively charged (having extra electrons). ...

Atomic Theory Lecture Notes

All chemical equations must be balanced, that is, they must have the

... BALANCING EQUATIONS ...

valence electrons

... electrons surrounding it. • Example: Lithium has 3 electrons but only 1 valence----Li • The number of valence electrons determines how many and what this atom (or ion) can bond to in order to make a molecule ...

Unit 2 Test Review - Liberty High School

... Matter and Atomic Structure Complete the following problems to help prepare you for you Unit 2 Test. You more than likely will want to answer these questions on a separate piece of paper (unless you can write microscopically). In addition to these problems, review your notes, assignments (#29-44), l ...

chapter 1 powerpoint

... chemistry.about.com/.../JohnDalton.htm ...

energy levels

... levels. When they fall to a lower level, they emit different colors of light. ...

Atomic Theory - Part 1 History

... • A quantum of energy is the amount of energy required to move an electron from its present energy level to the next higher one. • The higher the electron is on energy ladder, the farther it is from nucleus ...

Structure of the Atom

... – All the positive charge, and almost all the mass is concentrated in a small area in the center. He called this a “nucleus” – The neutron was discovered by Chadwick in 1932 ...

Fall 2008 Blank Exam 1 - Department of Chemistry | Oregon State

SCH 3U - othsmath

... the group we go, the less strongly the valence electrons are held and the less likely the atom will pull electrons toward itself in a bond, so the lower the electronegativity value. 1) Across a period, nuclear charge increases by increments of one while each new valence electron is added. This means ...

class slides for Chapter 42

... well-defined quantum state within the nucleus and makes hardly any collisions at all! The nucleus, unlike the atom, has no fixed center of charge; we assume in this model that each nucleon moves in a potential well that is determined by the smeared-out (timeaveraged) motions of all the other nucleon ...

subatomic particles

... - Atomic mass unit (amu): 1 proton has a mass of 1 amu; determined by taking the mass of a Carbon-12 atom and dividing by the total number of particles. - Atomic number: the number of protons in an atom. - Mass number: the sum of the protons and neutrons in an atom. - Isotopes: atoms of the same ele ...

General Chemistry Chapter 3 Note Packet

... 1. Discuss the history of the current atomic model, including contributions of: Dalton, Thomson, Rutherford, Moseley, Bohr. 2. Explain the laws of conservation of mass, definite proportions, and multiple proportions. 3. Describe the location, mass and charge of the three components of an atom. 4. Ex ...

Chem BIG REVIEW - Jones-wiki

... CURRENT MODEL OF THE ATOM Atoms are composed of electrons in a cloud around a positive nucleus. ...

PHYSICAL SCIENCE -- CHAPTER 10 READING GUIDE

... Describe the historical progression of the atomic theory (AT). Explain that science exists in a historical context. Relate the development of the AT to its historical context. Describe individuals and their contributions to the AT. Describe the various models of the atom. Describe the particles that ...

Chapter 5 Atomic Structure and Periodic Table 2014

... 3. Atoms of different elements can physically mix together or can chemically combine with one another in simple whole-number ratios to form compounds. 4. Chemical reactions occur when atoms are separated, joined or rearranged. Atoms of one element, however, are never changed into atoms of another el ...

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Unbinilium

Unbinilium /uːnbaɪˈnɪliəm/, also known as eka-radium or simply element 120, is the temporary, systematic element name of a hypothetical chemical element in the periodic table with the temporary symbol Ubn and the atomic number 120. Unbinilium and Ubn are the temporary systematic IUPAC name and symbol, until a permanent name is decided upon. In the periodic table of the elements, it is expected to be an s-block element, an alkaline earth metal, and the second element in the eighth period.To date, all attempts to synthesize this element have been unsuccessful. Its position as the seventh alkaline earth metal suggests that it would have similar properties to the alkaline earth metals, beryllium, magnesium, calcium, strontium, barium, and radium; however, relativistic effects may cause some of its properties to differ from those expected from a straight application of periodic trends. For example, unbinilium is expected to be less reactive than barium and radium and be closer in behavior to strontium, and while it should show the characteristic +2 oxidation state of the alkaline earth metals, it is also predicted to show the +4 oxidation state unknown in any other alkaline earth metal.

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Unbinilium