Halogens - Cronodon
Halogens - Cronodon

... The hypochlorous acid produced is a powerful oxidising agent, in which the hypochlorous acid is reduced to Cl–. Q.8. Write an ionic half-equation for the reduction of hypochlorous acid to chloride. ...
1.0 basic concepts
1.0 basic concepts

... • If you look at the reactants in (a), you’ll notice that the metal has no oxygen present. • This means that water, H2O cannot be formed, therefore H2 is the product • If you look at the reactants in (a) – (d), you’ll notice that the metal has oxygen present. • This means that water, H2O can be form ...
Specific Reactions Quiz.wpd
Specific Reactions Quiz.wpd

... c) since energy is still tied up in carbon product bonds, energy is not released all at once d) the presence of random carbon products prevents balancing e) energy is lost because it remains trapped within any remnant fuel bonds ...
Bonding 1. Which one of the following is most likely to be an ionic
Bonding 1. Which one of the following is most likely to be an ionic

... 6. Which of the following pairs of species is not a conjugate acid-base pair? a. HCl and H+ b. HSO4- and SO42c. H2SO4 and HSO4d. H2O and OHe. NH3 and NH27. Consider each of the following pairs of acids. Which statement is correct? a. HClO2 is a stronger acid than HClO4. b. H2SO4 is a stronger acid t ...
Chapter 4 - Colby College Wiki
Chapter 4 - Colby College Wiki

... 200 mL of aqueous 0.1 M H2SO4 is allowed to react completely with 7.4 g of solid NaOH. What ions remain in solution at the end of the reaction? If we assume that the total volume remains constant at 200 mL, what are the concentrations of the remaining ions? ...
1A - The changing atom History of the atom • The model of the atom
1A - The changing atom History of the atom • The model of the atom

... Put the 2 before the molecule with the element you are scaling up. You now have the same number of atoms on each side. Step 4 All that remains is to add the state symbols: Iron + Hydrochloric acid  Iron (II) chloride + Hydrogen Fe(s) + 2HCl(aq) ...
Review for Physical Science Test #2
Review for Physical Science Test #2

... 1. Compounds are made of ______________________ of elements that are _______________________________ together. 2. What are two ways that atoms can be bonded together? (Hint: both have to do with electrons.) ...
TYPES OF CHEMICAL REACTIONS AND SOLUTION CHEMISTRY
TYPES OF CHEMICAL REACTIONS AND SOLUTION CHEMISTRY

... 5. This point is often marked by an _______________, a substance added at the beginning of the titration that changes color at (or near) the equivalence point. 6. The point where the indicator actually changes color is called the _______________ of the titration. 7. When the analyte is a base or an ...
American-Journal-of-Oil-and-Chemical-Technologies
American-Journal-of-Oil-and-Chemical-Technologies

... 2.1.2. Synthesis of[Cd(pydco)(phen)2]·3H2O (1) A solution of H2pydco (0.037 g, 0.2 mmol) in water (10 ml) was added dropwise to a solution of 1,10phenanthroline (0.039 g, 0.2 mmol) in water (5 ml) and the mixture was stirred at room temperature for 2h. Then, a solution of CdCl2·2H2O (0.043 g, 0.2 mm ...
(null): 110.ReactionsIntro
(null): 110.ReactionsIntro

... 3) Do reduced version of Zn & HCl: one zinc pellet in test tube plus a few ml of HCl. While bubbling discuss where energy is stored and where it goes 4) Return to reaction, have Ss feel test tube (warm!) & decide if reaction followed Option 1 or 2 d. “Re-arrange” collisions 1) All reactions require ...
2018 Specimen Paper 2 - Cambridge International Examinations
2018 Specimen Paper 2 - Cambridge International Examinations

... 22 Acids are compounds which donate protons (hydrogen ions). NH3(aq) + H2O(l) → NH4+(aq) + OH–(aq) Which compound in this equation is behaving as an acid? A ...
Chemistry IGCSE Revision PDF File
Chemistry IGCSE Revision PDF File

... Sodium chloride NaCl is a ____________. There are __________ bonds between the two the same/ different numbers of electrons. elements _________ and _________. When these atoms bond one ____________ from the • Isotopes are atoms of the same element with ___________ atom is donated to the ____________ ...
Second Semester Final Review Guide
Second Semester Final Review Guide

... a. acid: H2SO4 conjugate base: H20 b. acid: H20 conjugate base: H30+ c. acid: HSO4 conjugate base: H2SO4 d. acid: H2SO4 conjugate base: HSO410. If the Ka value is larger than 1, then the acid is said to be ___________. a. Strong b. Weak 11. If a substance prefers to dissociate into H+ ions and anion ...
Chapter 4
Chapter 4

... The reaction between the titrant and the analyte should be known (you should know WHAT substances you have) The equivalence point should be marked accurately (you should use the right indicator) Volume of the titrant needed to reach the equivalence point should be recorded accurately (you should use ...
IGCSE Revision document
IGCSE Revision document

... elements _________ and _________. When these atoms bond one ____________ from the • Isotopes are atoms of the same element with ___________ atom is donated to the _____________ atom. This results in 2 ions : _______ and the same/ different numbers of neutrons. _______. Complete the electron arrangem ...
1. The compound which could act both as oxidising as well as
1. The compound which could act both as oxidising as well as

... (a) one mole of phosphine (PH3) (b)two moles of phosphine (c) two moles of phosphoric acid (d)one mole of P2O5 The reaction of calcium with water is represented by the equation Ca+2H2OCa(OH)2+ H2. The volume for hydrogen measured at STP that would be liberated when 8 g calcium completely reacts with ...
2016 - Specimen Paper 2 - Cambridge International Examinations
2016 - Specimen Paper 2 - Cambridge International Examinations

... 22 Acids are compounds which donate protons (hydrogen ions). NH3(aq) + H2O(l) → NH4+(aq) + OH–(aq) Which compound in this equation is behaving as an acid? A ...
Chemical Equilibrium Review Ch 13-14 2015
Chemical Equilibrium Review Ch 13-14 2015

... (a) Calculate the pH of a 0.015 M acetic acid solution. The value of Ka is 1.8 × 10−5 for acetic acid. (b) Calculate the pH of a 0.150M acetic acid solution. Determine, compare and discuss the percent dissociation for each of these solutions. ...
AP Review Chp 1 and Chp 2 Wed 10/9/2013 1. Near room
AP Review Chp 1 and Chp 2 Wed 10/9/2013 1. Near room

... A copper(II) sulfate solution is mixed by dissolving 25.000 g of copper(II) sulfate, and then it is treated with an excess of magnesium metal. The mass of copper collected is 8.786 g after drying. Calculate the percent yield of copper. II) In a particular experiment, 225 g of phosphorus, P4, reacted ...
Review Material
Review Material

... Relative Sizes of Ions For the Representative (s-block and p-block) Elements that form positive ions (cations), the radius of the positive ion will always be smaller than the radius of the corresponding atom. This is due primarily to the fact that when these elements form ions the outermost shell (h ...
CHEM 2218 Inorganic Chemistry I (Final Exam sample paper)
CHEM 2218 Inorganic Chemistry I (Final Exam sample paper)

... 3. See No. 3 question in the 2nd assignment (answers to this question will be given in the answer keys to the 2nd assignment) 4. The concept of soft/hard acids/bases can be used to explain the trend observed. Hard acids prefer to bind hard bases. Exception can also be seen, indicating that the conce ...
Question paper - Edexcel
Question paper - Edexcel

... SECTION A Answer ALL the questions in this section. You should aim to spend no more than 20 minutes on this section. For each question, select one answer from A to D and put a cross in the box . and then mark your new answer with If you change your mind, put a line through the box a cross . 1 Metho ...
! !! ! n nn N P =
! !! ! n nn N P =

... natural buffering capacity, especially in regions ( 2 ) where there is limestone ( 3  ) which gives rise to dissolved calcium carbonate. Write an equation for the reaction of a small amount of acid rain containing sulfuric acid (H2SO4) falling into a lake containing carbonate (CO32-) ions. Discus ...
AS Paper 1 Practice Paper 4 - A
AS Paper 1 Practice Paper 4 - A

... Give a reason for this trend. Trend .............................................................................................................. Reason ........................................................................................................... ...
NYOS Charter School
NYOS Charter School

... 19. The Keq value calculated in question 18 above indicates the equilibrium reaction may be considered which of the following? a. reactant-favored b. product-favored c. neither reactant- nor product-favored 20. Fill in the table below with the appropriate definitions. Definition Arrhenius Bronsted-L ...

Acid strength

The strength of an acid refers to its ability or tendency to lose a proton (H+). A strong acid is one that completely ionizes (dissociates) in a solution. In water, one mole of a strong acid HA dissolves yielding one mole of H+ (as hydronium ion H3O+) and one mole of the conjugate base, A−. Essentially, none of the non-ionized acid HA remains. Examples of strong acids are hydrochloric acid (HCl), hydroiodic acid (HI), hydrobromic acid (HBr), perchloric acid (HClO4), nitric acid (HNO3) and sulfuric acid (H2SO4). In aqueous solution, each of these essentially ionizes 100%.In contrast, a weak acid only partially dissociates. Examples in water include carbonic acid (H2CO3) and acetic acid (CH3COOH). At equilibrium, both the acid and the conjugate base are present in solution.Stronger acids have a larger acid dissociation constant (Ka) and a smaller logarithmic constant (pKa = - log Ka) than weaker acids. The stronger an acid is, the more easily it loses a proton, H+. Two key factors that contribute to the ease of deprotonation are the polarity of the H—A bond and the size of atom A, which determines the strength of the H—A bond. Acid strengths also depend on the stability of the conjugate base.While Ka measures the strength of an acidic molecule, the strength of an aqueous acid solution is measured by pH, which is a function of the concentration of hydronium ions in solution. The pH of a simple solution of an acid in water is determined by both Ka and the acid concentration. For weak acid solutions, it depends on the degree of dissociation, which may be determined by an equilibrium calculation. For concentrated solutions of strong acids with a pH less than about zero, the Hammett acidity function is a better measure of acidity than the pH.Sulfonic acids, which are organic oxyacids, are a class of strong acids. A common example is p-toluenesulfonic acid (tosylic acid). Unlike sulfuric acid itself, sulfonic acids can be solids. In fact, polystyrene functionalized into polystyrene sulfonate is a solid strongly acidic plastic that is filterable.Superacids are acid solutions that are more acidic than 100% sulfuric acid. Examples of superacids are fluoroantimonic acid, magic acid and perchloric acid. Superacids can permanently protonate water to give ionic, crystalline hydronium ""salts"". They can also quantitatively stabilize carbocations.