follow up solids
... 1. Ionic solids Have high degree of stability due to achievement of valence shell octets through bonding Non directional forces in such solids will result in highly ordered macroscopic bodies ...
... 1. Ionic solids Have high degree of stability due to achievement of valence shell octets through bonding Non directional forces in such solids will result in highly ordered macroscopic bodies ...
2202 Chapter 1 - Eric G. Lambert School
... - composed of a cation and an anion (usually metal and nonmetal) eg. NaCl Mg3N2 ...
... - composed of a cation and an anion (usually metal and nonmetal) eg. NaCl Mg3N2 ...
![2 Electric current [ ]](http://s1.studyres.com/store/data/001511845_1-c754371f0fc86e182eb4561709dc5dd4-300x300.png)
Topic #20, Electric Currents and Electric Circuits
... symbols rather than trying to draw facsimiles of the actual objects. These symbols are used in a drawing made to represent a circuit called a schematic. There are quite a few symbols used to represent all the different possible electrical components that may be used in a circuit. Physics texts and b ...
... symbols rather than trying to draw facsimiles of the actual objects. These symbols are used in a drawing made to represent a circuit called a schematic. There are quite a few symbols used to represent all the different possible electrical components that may be used in a circuit. Physics texts and b ...
Notes: Moles
... Notes: Moles Atoms are very, very small. 1 atom of hydrogen weighs approximately 1.67 x 10-27 kg. As a result, it’s not very practical to do chemical reactions by counting out the number of atoms or molecules that will be reacting, because we’ll be counting for a very long time! You’ve seen this b ...
... Notes: Moles Atoms are very, very small. 1 atom of hydrogen weighs approximately 1.67 x 10-27 kg. As a result, it’s not very practical to do chemical reactions by counting out the number of atoms or molecules that will be reacting, because we’ll be counting for a very long time! You’ve seen this b ...
Electric Potential Energy
... Example: A rod of length L located along the x-axis has a total charge Q uniformly distributed along the rod. Find the electric potential at a point P along the y-axis a distance d from the ...
... Example: A rod of length L located along the x-axis has a total charge Q uniformly distributed along the rod. Find the electric potential at a point P along the y-axis a distance d from the ...
Electric and Magnetic Field Interactions with Materials
... separated by a very small distance is called an electric dipole. These are bound charges, because they are held in place by molecular bonds and are not free to move to another molecule. The creation of electric dipoles by this separation of charge is called induced polarization. ...
... separated by a very small distance is called an electric dipole. These are bound charges, because they are held in place by molecular bonds and are not free to move to another molecule. The creation of electric dipoles by this separation of charge is called induced polarization. ...
Slides
... We can see that for large enough N it is possible to provide a good undetectability ( P0 0.4) and reliability ( Pe 103 ) of STS and embed up to 232 secure bits. ...
... We can see that for large enough N it is possible to provide a good undetectability ( P0 0.4) and reliability ( Pe 103 ) of STS and embed up to 232 secure bits. ...
Topic 4
... A molecular/formula unit equation is one in which the reactants and products are written as if they were molecules/formula units, even though they may actually exist in solution as ions. Many ionic compounds undergo a displacement reaction between the cation of one species with the anion of another. ...
... A molecular/formula unit equation is one in which the reactants and products are written as if they were molecules/formula units, even though they may actually exist in solution as ions. Many ionic compounds undergo a displacement reaction between the cation of one species with the anion of another. ...
Physics Week 3(Sem. 2)
... negative terminal. The field exerts a force on the free electrons in the wire, and they respond by moving through the wire. The resulting from of charge is called an electric current. The current is defined as the amount of charge per unit time that crosses an area of the wire. Thus the equ ...
... negative terminal. The field exerts a force on the free electrons in the wire, and they respond by moving through the wire. The resulting from of charge is called an electric current. The current is defined as the amount of charge per unit time that crosses an area of the wire. Thus the equ ...
exam review - hrsbstaff.ednet.ns.ca
... 11. a) Calculate the concentration of glucose (C6H12O6) in a solution in which 10.0 g of glucose is dissolved in water and diluted to a final volume of 200.0 mL. b) Determine the volume of commercial grade nitric acid (15.8 mol/L HNO 3) that is needed to prepare 100.0 mL of 3.00 mol/L HNO3. c) Rubbi ...
... 11. a) Calculate the concentration of glucose (C6H12O6) in a solution in which 10.0 g of glucose is dissolved in water and diluted to a final volume of 200.0 mL. b) Determine the volume of commercial grade nitric acid (15.8 mol/L HNO 3) that is needed to prepare 100.0 mL of 3.00 mol/L HNO3. c) Rubbi ...
Chapter 2 Chemical Bonds Ionic Bonds
... by 12 electrons in an expanded octet. Because it has the lowest formal charges, we expect the structure on the right to be the most favored one energetically and the one to make the greatest contribution to the resonance hybrid. There is one additional Lewis structure with a single double bond not s ...
... by 12 electrons in an expanded octet. Because it has the lowest formal charges, we expect the structure on the right to be the most favored one energetically and the one to make the greatest contribution to the resonance hybrid. There is one additional Lewis structure with a single double bond not s ...
Writing Chemical Formulas and Chemical Reactions
... All chemical equations must be balanced so that they are consistent with the Law of Conservation of Mass. Here are some suggestions for balancing equations: 1. When balancing equations, always start with the “ugliest” molecule first (polyatomics). 2. To balance, place the desired number (coefficient ...
... All chemical equations must be balanced so that they are consistent with the Law of Conservation of Mass. Here are some suggestions for balancing equations: 1. When balancing equations, always start with the “ugliest” molecule first (polyatomics). 2. To balance, place the desired number (coefficient ...
Nanofluidic circuitry
Nanofluidic circuitry is a nanotechnology aiming for control of fluids in nanometer scale. Due to the effect of an electrical double layer within the fluid channel, the behavior of nanofluid is observed to be significantly different compared with its microfluidic counterparts. Its typical characteristic dimensions fall within the range of 1–100 nm. At least one dimension of the structure is in nanoscopic scale. Phenomena of fluids in nano-scale structure are discovered to be of different properties in electrochemistry and fluid dynamics.