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HESI A2 Chemistry Fundamental Concepts in Chemistry Properties of Water  Water's ability to form hydrogen bonds contributes to its high specific heat, allowing it to absorb and release heat without significant temperature changes, which is crucial for maintaining stable environments in biological systems.  Water's cohesive properties lead to high surface tension, enabling small objects to float and allowing for capillary action in plants.  Water acts as a solvent for many ionic and polar substances, facilitating chemical reactions in biological systems.  The unique structure of water molecules (H2O) allows for its liquid state to be less dense than its solid state (ice), which is vital for aquatic life during freezing conditions. Chemical Reactions and Equations  Chemical equations are typically written in the format of Reactants → Products, indicating the transformation of substances during a reaction.  A combustion reaction is characterized by the reaction of a substance with oxygen, producing energy, carbon dioxide, and water as products.  Redox reactions involve the transfer of electrons between atoms, leading to changes in oxidation states, which are fundamental in energy production processes.  The concept of limiting reactants is crucial in stoichiometry, as it determines the maximum amount of product that can be formed in a chemical reaction. Atomic Structure and the Periodic Table  The atomic number of an element is defined as the number of protons in its nucleus, which determines the element's identity and position in the periodic table.  Elements are organized in horizontal rows called periods and vertical columns known as groups or families, which share similar chemical properties.  Atomic mass is the weighted average of the masses of an element's isotopes, reflecting the relative abundance of each isotope in nature.  Alkali metals, found in Group 1 of the periodic table, are characterized by their high reactivity and tendency to lose one electron to form +1 ions. Key Chemical Terms and Definitions Acids and Bases  Acids are defined as proton donors (H+), while bases are proton acceptors, which is a fundamental concept in Brønsted-Lowry acid-base theory.  The pH scale measures the acidity or basicity of a solution, with a pH of 7 being neutral, below 7 acidic, and above 7 basic.  Strong acids and bases completely dissociate in water, while weak acids and bases only partially dissociate, affecting their pH and reactivity.  Amphoteric substances can act as either acids or bases depending on the environment, such as water (H2O). Energy and Thermodynamics  The SI unit of energy is the joule (J), which quantifies the amount of work done or heat transferred.  Specific heat capacity is the amount of heat required to raise the temperature of a unit mass of a substance by one degree Celsius, with water having a high specific heat capacity compared to metals like aluminum and wood.  Entropy is a measure of disorder in a system, and chemical reactions in living systems tend to increase entropy, reflecting the second law of thermodynamics.  Enthalpy changes during reactions indicate whether a reaction is exothermic (releases heat) or endothermic (absorbs heat). Practical Applications and Examples Real-World Chemical Reactions  The reaction of potassium chloride (KCl) with potassium (K) and chlorine gas (Cl2) is an example of a synthesis reaction, where simpler substances combine to form a more complex product.  Combustion reactions are prevalent in everyday life, such as in the burning of fuels for energy, which releases carbon dioxide and water as byproducts.  The concept of empirical formulas is illustrated by compounds like C2H6 (ethane) and C3H6 (propene), which represent the simplest whole-number ratios of elements in a compound.  Understanding limiting reactants is essential in industrial chemistry to optimize the yield of desired products and minimize waste. Analytical Techniques in Chemistry  Mass spectrometry is a powerful analytical technique used to separate ions based on their massto-charge ratio, providing insights into molecular structure and composition.  Techniques such as chromatography are employed to separate and analyze complex mixtures, essential in fields like pharmaceuticals and environmental science.  The use of titration in determining the concentration of an unknown solution is a practical application of acid-base chemistry, demonstrating the importance of stoichiometry in laboratory settings.  Spectrophotometry is another analytical method that measures the amount of light absorbed by a solution, allowing for quantitative analysis of chemical substances. HESI A2 Chemistry, A2 Hesi Chemistry Study online at 1. Metric system Gram (g)- Weight Liter (L)- Volume Meters (m)- distance 2. Metric prefixes 3. Fahrenheit Is a temperature measuring system used only in the U.S., its territories, Belize, and Jamaica Barley used for any scientific measurement except for body temperature Characteristics: -zero degrees is the freezing point of sea water or heave brine at sea level 32 degrees F is the freezing point of pure water at sea level 212 degrees F is the boiling point of pure water at sea level 4. Celsius Sometimes called centigrade is a temperature system used in the rest of the world and by scientific community. Characteristics: Zero degrees is the freezing point of pure water at sea level 100 degrees C is the boiling point of pure water at sea level Most people have a body temperature of 37 degrees C 5. Kelvins 1 / 32 HESI A2 Chemistry, A2 Hesi Chemistry Exam HESI A2 Chemistry, A2 Hesi Chemistry Study online at (temperature) Is used only in the scientific community Does NOT use Negative Numbers Characteristics: 0 Kelvin is -273 degree C and is thought to be the lowest temperature achievable or absolute zero The freezing point of water is 273 K The boiling point of water is 373K Most people have a body temperature of 310 K but this is never used 6. Important temperatures Melting ice: 21 C and 32 F Normal body temp: 37 C and 98.6 F Boiling water: 100 C and 212 F 7. Atom Nucleus and electron clouds (orbits) 8. Nucleus Consists of protons and neutrons at the the center of the atom. 9. Orbits (electron cloud) _________ of the electron are the outermost parts. Which spin around the nucleus at fantastic speeds. 10. Ground state atoms Tend to have equal numbers of protons and electrons, making them electrically neutral 11. Ionic state (ion) When an atom is electrically charged. Usually occurs when it is in a solution or in the form of a chemical compound. Will have lost electrons, result in a net positive charge or will have gained electrons, resealing in a net negative charge. 2 / 32 HESI A2 Chemistry, A2 Hesi Chemistry Exam HESI A2 Chemistry, A2 Hesi Chemistry Study online at 12. Cation Positive charge atom 13. Anion Negative charge atom 14. Periodic table Is made up of a series of rows called periods and columns called groups. A table of known elements arranged according to their properties 15. Atomic number # of protons in the nucleus and it defines an atom of a particular element 16. Atomic mass Is the average mass of each of the elements isotopes. # at the bottom of each square in the periodic table; and its usually a decimal #. 17. `Isotopes Different kinds of the same atom that vary in weight # of protons remain the same 18. Compounds 3 / 32 HESI A2 Chemistry, A2 Hesi Chemistry Exam HESI A2 Chemistry, A2 Hesi Chemistry Study online at Combination with other elements Combine in whole # ratios 19. Chemical equations Reactants -- Products ex. AgNO3 + KCl -- AgCl + KNO3 * Law of Conversation: Mass CANNOT be Created NOR Destroyed 20. Equilibrium A state in which reactants are forming products at the same rate that products are forming reactants. *reversible A + B -- C + D 21. Four ways to increase the reaction rate Increase the temperature Increase the surface area Add a catalyst Increase the concentration of reactants 22. Solutions Defined as a homogenous mixtures of two or more substances 23. Solute Part or parts of being dissolved 24. Solvent Part that is doing the dissolving Can be a liquid in a liquid, a solid in a liquid, or a solid in a solid 25. Types of solutions Compounds Alloys Amalgams Emulsions 4 / 32 HESI A2 Chemistry, A2 Hesi Chemistry Exam HESI A2 Chemistry, A2 Hesi Chemistry Study online at 26. Compound solution Mixture of different elements to create a single matter 27. Alloys Solid solutions of metal to make a new one such as bronze, which is copper and Tin 28. Amalgams A specific type of alloy in which another metal is dissolved in mercury 29. Emulsions Mixtures of matter that readily separate such as water and oil 30. Percent Concentration Is the expression of concentrations as parts per 100 parts Most are expressed as milligrams (mg) per 100 milliliters (L) 31. Molar concentrations Concentrations of solutions Mol/ L Mol= 6.02 X 10 ^23 (Avogrado's number) 32. 5 types of chemical reactions Synthesis Decomposition Combustion Single Replacement Double replacement 33. Synthesis Two elements combined to form a product ex. 2 K^(+) + 2 Cl ^(-) --- 2KCl 34. Decomposition