Chemistry - Plymouth Public Schools
... Central Concept: Physical and chemical properties reflect the nature of the interactions between molecules or atoms, and can be used to classify and describe matter. MA CHM 1.1 Identify and explain physical properties (e.g., density, melting point, boiling point, conductivity, malleability) and chem ...
... Central Concept: Physical and chemical properties reflect the nature of the interactions between molecules or atoms, and can be used to classify and describe matter. MA CHM 1.1 Identify and explain physical properties (e.g., density, melting point, boiling point, conductivity, malleability) and chem ...
jyvaskla2 - School of Chemistry
... via their associated bcp’s, and indicate their is no direct chemical bonding along the B-B vectors which are triply bridged by the H atom. ...
... via their associated bcp’s, and indicate their is no direct chemical bonding along the B-B vectors which are triply bridged by the H atom. ...
Chemistry - Resonance
... About 3 million organic compounds are known today. The main reasons for this huge number of organic compounds are (i) Catenation : The property of self linking of carbon atoms through covalent bonds to form long straight or branched chains and rings of different sizes is called catenation.Carbon sho ...
... About 3 million organic compounds are known today. The main reasons for this huge number of organic compounds are (i) Catenation : The property of self linking of carbon atoms through covalent bonds to form long straight or branched chains and rings of different sizes is called catenation.Carbon sho ...
Common Curriculum Map Discipline: Science Course: Chemistry
... 7. Draw a Lewis Dot diagram to show the exchange of electrons between atoms forming an ionic bond. 8. Differentiate between monatomic and polyatomic ions. 9. Use the crisscross method to write an empirical formula for a given ionic compound. 10. Differentiate between ionic and covalent bonds. 11. Di ...
... 7. Draw a Lewis Dot diagram to show the exchange of electrons between atoms forming an ionic bond. 8. Differentiate between monatomic and polyatomic ions. 9. Use the crisscross method to write an empirical formula for a given ionic compound. 10. Differentiate between ionic and covalent bonds. 11. Di ...
Week 2 end - University of Guelph
... come together to form one mole of an ionic crystalline solid (values are negative). “ELECTRON AFFINITY” is defined (in Ebbing & Gammon) as the energy change for the process of adding an electron to a neutral atom in the gaseous state to form a negative ion. This definition is also known as the “elec ...
... come together to form one mole of an ionic crystalline solid (values are negative). “ELECTRON AFFINITY” is defined (in Ebbing & Gammon) as the energy change for the process of adding an electron to a neutral atom in the gaseous state to form a negative ion. This definition is also known as the “elec ...
Chapter 4: Oxidation and Reduction MH5 4
... 3. The following rules are applied to specific atoms in their chemical compounds. If a conflict occurs, the atom listed first in the list takes preference: a) F = -1 b) Li, Na, K, Rb, Cs = +1 c) Be, Mg, Ca, Sr, Ba = +2 d) H = +1 e) O = -2 f) Cl, Br, I = -1 4. The sum of all the oxidation numbers in ...
... 3. The following rules are applied to specific atoms in their chemical compounds. If a conflict occurs, the atom listed first in the list takes preference: a) F = -1 b) Li, Na, K, Rb, Cs = +1 c) Be, Mg, Ca, Sr, Ba = +2 d) H = +1 e) O = -2 f) Cl, Br, I = -1 4. The sum of all the oxidation numbers in ...
Document
... Atoms can be represented as shown in this example: Mass number 23 Na Atomic number 11 The relative masses of protons, neutrons and electrons are: Name of particle Mass Proton 1 Neutron 1 Electron Very small The total number of protons and neutrons in an atom is called its mass number. Atoms of the s ...
... Atoms can be represented as shown in this example: Mass number 23 Na Atomic number 11 The relative masses of protons, neutrons and electrons are: Name of particle Mass Proton 1 Neutron 1 Electron Very small The total number of protons and neutrons in an atom is called its mass number. Atoms of the s ...
The Atomic Theory Chem 111
... 1) Atom is the smallest basic unit of an element that can enter into a chemical reaction. It is also the smallest unit that cannot be broken down into another chemical substance. 2) Electron is the negatively charged, subatomic particle with a very low mass. 3) Radioactivity is the spontaneous break ...
... 1) Atom is the smallest basic unit of an element that can enter into a chemical reaction. It is also the smallest unit that cannot be broken down into another chemical substance. 2) Electron is the negatively charged, subatomic particle with a very low mass. 3) Radioactivity is the spontaneous break ...
CHEM 1405 Practice Exam #2 (2015)
... 10) How many valence electrons does the representative element with the electron configuration 1s22s22p63s23p5 possess? A) 5 B) 6 11) The compound Au2Se3 is classified as which of the following? A) binary ionic B) ternary ionic C) 7 D) 2 C) binary molecular D) binary acid 12) Which of the following ...
... 10) How many valence electrons does the representative element with the electron configuration 1s22s22p63s23p5 possess? A) 5 B) 6 11) The compound Au2Se3 is classified as which of the following? A) binary ionic B) ternary ionic C) 7 D) 2 C) binary molecular D) binary acid 12) Which of the following ...
Oxidation Numbers
... Common Oxidation Numbers: a) Any element = 0 b) H (in compounds) = +1 c) O (in compounds) = −2 d) Any monoatomic ion = its charge ...
... Common Oxidation Numbers: a) Any element = 0 b) H (in compounds) = +1 c) O (in compounds) = −2 d) Any monoatomic ion = its charge ...
CHM2045 Exam 2 Review Questions Fall 2015
... 13) Select the false statements below. A) In any given atom, a l = 2 subshell can accommodate up to 5 electrons that have ms = –1/2 B) The n = 1 shell of any given atom can accommodate up to 2 electrons C) The following set of quantum numbers is allowed: n = 4, l = 2, ml = −2, ms = +1/2 D) The n = 4 ...
... 13) Select the false statements below. A) In any given atom, a l = 2 subshell can accommodate up to 5 electrons that have ms = –1/2 B) The n = 1 shell of any given atom can accommodate up to 2 electrons C) The following set of quantum numbers is allowed: n = 4, l = 2, ml = −2, ms = +1/2 D) The n = 4 ...
Q1. This question is about the structure of atoms. (a) Choose words
... The chemical formula of ammonia is NH3. This shows that there is one atom of .......................................... and three atoms of .................................. in each ......................................... of ammonia. These atoms are joined by bonds that are formed by sharing pairs ...
... The chemical formula of ammonia is NH3. This shows that there is one atom of .......................................... and three atoms of .................................. in each ......................................... of ammonia. These atoms are joined by bonds that are formed by sharing pairs ...
Higher Chemistry - Mobile Resource
... It can also be shown that rates of reactions are very slow compared to the number of collisions actually happening. (This makes sense because if all collisions were successful and led to a reaction happening then there would be no slow reactions). So if 2 colliding molecules are moving slowly they w ...
... It can also be shown that rates of reactions are very slow compared to the number of collisions actually happening. (This makes sense because if all collisions were successful and led to a reaction happening then there would be no slow reactions). So if 2 colliding molecules are moving slowly they w ...
chemistry
... the front of your answer booklet. All answers in your answer booklet should be written in pen, except for graphs and drawings, which should be done in pencil. You may use scrap paper to work out the answers to the questions, but be sure to record all your answers on your separate answer sheet or in ...
... the front of your answer booklet. All answers in your answer booklet should be written in pen, except for graphs and drawings, which should be done in pencil. You may use scrap paper to work out the answers to the questions, but be sure to record all your answers on your separate answer sheet or in ...
Chemical bonding
... 22) How many lone pairs of electrons are present in a molecule of SF4? 23) What is hybridization? 24) Write the shape and bond angle of sp hybrid orbitals? 25) Give an example of a molecule having sp hybridization? 26) What is the percentage of s character in sp hybridization? 27) What is the shape ...
... 22) How many lone pairs of electrons are present in a molecule of SF4? 23) What is hybridization? 24) Write the shape and bond angle of sp hybrid orbitals? 25) Give an example of a molecule having sp hybridization? 26) What is the percentage of s character in sp hybridization? 27) What is the shape ...
Topic 4
... electrons/electron density between the two (carbon) atoms/OWTTE; (π bond formed by) sideways/parallel overlap; electrons/electron density above and below bond/OWTTE; Marks can be scored from a suitable diagram. ...
... electrons/electron density between the two (carbon) atoms/OWTTE; (π bond formed by) sideways/parallel overlap; electrons/electron density above and below bond/OWTTE; Marks can be scored from a suitable diagram. ...
Slide 1
... when atoms lose electrons, they become positively charged ions, called cations ions behave much differently than the neutral atom e.g., The metal sodium, made of neutral Na atoms, is highly reactive and quite unstable. However, the sodium cations, Na+, found in table salt are very nonreactive and ...
... when atoms lose electrons, they become positively charged ions, called cations ions behave much differently than the neutral atom e.g., The metal sodium, made of neutral Na atoms, is highly reactive and quite unstable. However, the sodium cations, Na+, found in table salt are very nonreactive and ...
Oxidation numbers
... a reaction, we go through these steps: 1 Write down the chemical equation for the reaction. 2 Go through and work out the oxidation numbers for every element in the equation. 3 Look for an element that has increased its oxidation number from one side of the equation to the other - it has been oxidis ...
... a reaction, we go through these steps: 1 Write down the chemical equation for the reaction. 2 Go through and work out the oxidation numbers for every element in the equation. 3 Look for an element that has increased its oxidation number from one side of the equation to the other - it has been oxidis ...
Redox
... Before metallurgy, humans discovered fire. The technology of fire has been crucial in the development of human cultures, but only relatively recently (18th century) have we come to realize the role of oxygen in burning. Understanding the connection of corrosion (rusting, tarnishing, etc.) and burnin ...
... Before metallurgy, humans discovered fire. The technology of fire has been crucial in the development of human cultures, but only relatively recently (18th century) have we come to realize the role of oxygen in burning. Understanding the connection of corrosion (rusting, tarnishing, etc.) and burnin ...
Lab 1
... You should get either 500,000 or 5 105 and either is correct. IF YOU DID NOT GET THAT ANSWER THEN…….read on………. DO NOT’s of Scientific calculators. 1. DO NOT USE the 10X key. DO NOT enter the above numbers as 1 times 102 times 5 times 103 even though you get the same answer….IT IS A WASTE OF KEY S ...
... You should get either 500,000 or 5 105 and either is correct. IF YOU DID NOT GET THAT ANSWER THEN…….read on………. DO NOT’s of Scientific calculators. 1. DO NOT USE the 10X key. DO NOT enter the above numbers as 1 times 102 times 5 times 103 even though you get the same answer….IT IS A WASTE OF KEY S ...
Preview Sample 2
... You also notice that the electrons in H2 are evenly distributed among the two atoms. Which two types of bonds are represented in these molecules? A. Covalent bonds in NaCl; ionic bonds in H2. B. Covalent bonds in NaCl; covalent bonds in H2. C. Ionic bonds in NaCl; ionic bonds in H2. D. Ionic bonds i ...
... You also notice that the electrons in H2 are evenly distributed among the two atoms. Which two types of bonds are represented in these molecules? A. Covalent bonds in NaCl; ionic bonds in H2. B. Covalent bonds in NaCl; covalent bonds in H2. C. Ionic bonds in NaCl; ionic bonds in H2. D. Ionic bonds i ...
Electronegativity
Electronegativity, symbol χ, is a chemical property that describes the tendency of an atom or a functional group to attract electrons (or electron density) towards itself. An atom's electronegativity is affected by both its atomic number and the distance at which its valence electrons reside from the charged nucleus. The higher the associated electronegativity number, the more an element or compound attracts electrons towards it. The term ""electronegativity"" was introduced by Jöns Jacob Berzelius in 1811,though the concept was known even before that and was studied by many chemists including Avogadro.In spite of its long history, an accurate scale of electronegativity had to wait till 1932, when Linus Pauling proposed an electronegativity scale, which depends on bond energies, as a development of valence bond theory. It has been shown to correlate with a number of other chemical properties. Electronegativity cannot be directly measured and must be calculated from other atomic or molecular properties. Several methods of calculation have been proposed, and although there may be small differences in the numerical values of the electronegativity, all methods show the same periodic trends between elements. The most commonly used method of calculation is that originally proposed by Linus Pauling. This gives a dimensionless quantity, commonly referred to as the Pauling scale, on a relative scale running from around 0.7 to 3.98 (hydrogen = 2.20). When other methods of calculation are used, it is conventional (although not obligatory) to quote the results on a scale that covers the same range of numerical values: this is known as an electronegativity in Pauling units. As it is usually calculated, electronegativity is not a property of an atom alone, but rather a property of an atom in a molecule. Properties of a free atom include ionization energy and electron affinity. It is to be expected that the electronegativity of an element will vary with its chemical environment, but it is usually considered to be a transferable property, that is to say that similar values will be valid in a variety of situations.On the most basic level, electronegativity is determined by factors like the nuclear charge (the more protons an atom has, the more ""pull"" it will have on electrons) and the number/location of other electrons present in the atomic shells (the more electrons an atom has, the farther from the nucleus the valence electrons will be, and as a result the less positive charge they will experience—both because of their increased distance from the nucleus, and because the other electrons in the lower energy core orbitals will act to shield the valence electrons from the positively charged nucleus).The opposite of electronegativity is electropositivity: a measure of an element's ability to donate electrons.Caesium is the least electronegative element in the periodic table (=0.79), while fluorine is most electronegative (=3.98). (Francium and caesium were originally assigned both assigned 0.7; caesium's value was later refined to 0.79, but no experimental data allows a similar refinement for francium. However, francium's ionization energy is known to be slightly higher than caesium's, in accordance with the relativistic stabilization of the 7s orbital, and this in turn implies that caesium is in fact more electronegative than francium.)