Scientists of Atomic Structure

... small, negatively charged particles that have a mass less than one thousandth that of a hydrogen atom. Thomson has discovered the electron. From this point onward, it becomes increasingly clear that atoms are not fundamental particles, but in fact are made up of smaller particles. He received the No ...

Unit 2

... • Potassium is losing an electron and becomes positively charged. • Chloride is gaining an electron and becomes negatively charged. • K and Cl now attract each other. •The compound has a neutral charge. ...

File

... 1. An atom is the smallest particle of an element that retains the properties of that element. 2. The nucleus is a small, dense region located at the center of an atom. 3. The nucleus is made up of at least one positively charged particle called a proton and usually one or more neutral particles cal ...

rp oc4

... 1. A bond where there is a sharing of electrons: d) ionic ...

Chemical Composition Notes

... __________ - (+) ions; often metals since metals lose electrons to become positively charged ________ - (—) ions; often nonmetals since nonmetals gain electrons to become negatively charged For the metals 1A through 3A, for 1B and 2B, and for the metals of group 4A, it is equal to the group number T ...

Ch9_10notes maroon edition

... We’ve talked about the “like dissolves like” concept before—polar substance dissolve in polar solvents; Nonpolar substances dissolve in nonpolar solvents. However, the polarity this concept refers to is not the polarity of bonds; it is the polarity of molecules. Therefore, we must be able to ascerta ...

Lesson 1 - St John Brebeuf

... calculate the expected molar mass for the following elements with from their isotopes. a) Ga-69 = 60.0% , Ga-71 = 40.0% **To get the average molar mass multiply the percentage (In decimal form) by the molar mass for each isotope and add them together.** ...

History of Atomic Structure

... • Goal of Greek philosophers was to explain the natural world  Believed that all materials could be broken down smaller and smaller parts until you reach a point  This point was what Democritus called “atomos” which in Greek meant “indivisble” or “uncuttable” ...

2009-10 Chemistry 1st Semester Final Exam Topics and Review

... Significant Figures Dimensional Analysis Density Physical and Chemical properties, Physical and chemical changes Matter- elements and compounds, mixtures and pure substances Elements, atoms, atomic structure- parts, location, charges, and masses. For any atom, ion, or isotope be able to identify: at ...

Atomic structure unit powerpoint

... (atomic # 1-18) – Think of Stadium Seating!! ...

Chapter 3 STUDY GUIDE True/False Indicate whether the statement

... a. poor conductors of heat c. poor conductors of electricity b. brittle d. good conductors of heat 18. When Rutherford performed his metal foil experiment, he was surprised that most of the alpha particles ____. a. were deflected by the foil c. were absorbed by the foil b. bounced back from the foil ...

UNIT VIII - St John Brebeuf

... calculate the expected molar mass for the following elements with from their isotopes. a) Ga-69 = 60.0% , Ga-71 = 40.0% **To get the average molar mass multiply the percentage (In decimal form) by the molar mass for each isotope and add them together.** ...

Instructor`s Guide

... chemical reaction: A process in which the elements of a substance separate and then combine to form a new substance. Heat is either absorbed or given off during a chemical reaction. compound: A substance consisting of similar types of molecules, and made up of two or more elements. covalent bond: A ...

- Dr.Divan Fard

... All matter is composed of atoms. An atom is the smallest and simplest unit into which an element can be divided while maintaining the properties of the element. Atoms are made up of subatomic particles called protons, neutrons and electrons. Protons have positive, electrons have negative, and neutro ...

Topic 4: Classifying Elements What did the early chemists use to

... We usually refer to compounds containing HYDROGEN by their COMMON name. All compounds containing hydrogen are MOLECULAR compounds. How do we indicate the physical state of a compound? (something is writte ...

Electron

... • In a covalent bond, the s and p orbitals may ...

Protons, Neutrons, Electrons

... Ion and Isotope. Both have something the same, something different. Both start with the letter “i". Don’t confuse them! Isotopes are atoms of the same element that have identical numbers of protons but different numbers of neutrons. Ions are made when an atom gains or lose electrons. The mass number ...

Trends in the Periodic Table

... • Atoms are larger and outer shell electrons are farther from the nucleus. • Electron shielding reduces the attraction for outer shell electrons by the nucleus. ...

Name #_____

... 41. When performing an experiment evidence of a chemical change includes A) a color change B) release of a gas C) release of energy in form of heat or light D) all of the above 42. The choice with the correct shorthand and meaning is: A) (s) = solid, (aq) = gas B) (g) = gas, (l) = liquid C) (aq) = a ...

Unit 10: Structure and Bonding

... Radioactive and Non radioactive isotopes Do NOT assume the word isotope means the atom it is radioactive, this depends on the stability of the nucleus i.e. unstable atoms (radioactive) might be referred to as radioisotopes. Many isotopes are extremely stable in the nuclear sense and NOT radioactive ...

Chapter 2

... • In a covalent bond, the s and p orbitals may ...

Question, hints, and answers. Look at hints if you need help. Look at

... physical methods. When you melt ice or evaporate water its still the same thing. (physical changes) a ...

I - Chemistry-at-PA

... e. alike in number of electrons. c. different in number of electrons. 9) According to Democritus’s ideas about “atomos” which one of the following is TRUE? a. Atomos are divisible. b. Atomos are hard dense spheres c. Atomos have varying density – they are heterogeneous. d. Changes in matter are due ...

Chemistry-5th-Edition-Brady-Solution-Manual

... The heavy line separates the metals from the nonmetals, and the metalloids border the line. ...

Chapter 3

... Dalton’s Atomic Theory • All matter is composed of extremely small particles called atoms. • Atoms of a given element are identical in size, mass, and other properties; atoms of different elements differ in size, mass, and other properties. • Atoms cannot be subdivided, created, or ...

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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