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Chapter 6 Chemistry in Biology

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Presentation on theme: "Chapter 6 Chemistry in Biology"— Presentation transcript:

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2 Chapter 6 Chemistry in Biology
Section 1: Atoms, Elements, and Compounds Section 2: Chemical Reactions Section 3: Water and Solutions Section 4: The Building Blocks of Life

3 Chemistry is the study of matter.
Chapter 6 Chemistry in Biology 6.1 Atoms, Elements, and Compounds Atoms Chemistry is the study of matter. Atoms are the building blocks of matter. Neutrons and protons are located at the center of the atom. Protons are positively charged particles. Neutrons are particles that have no charge.

4 Chapter 6 Chemistry in Biology 6.1 Atoms, Elements, and Compounds Electrons are negatively charged particles that are located outside the nucleus.

5 There are 118 known elements, 92 of which occur naturally.
Chapter 6 Chemistry in Biology 6.1 Atoms, Elements, and Compounds Elements An element is a pure substance that cannot be broken down into other substances by physical or chemical means. There are 118 known elements, 92 of which occur naturally. Each element has a unique name and symbol.

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7 Who discovered the periodic table
Who discovered the periodic table? In the late 1800s, when only 60 or so elements had been discovered, a Russian chemist by the name of Dmitri Mendeleev decided to arrange the elements in order of increasing atomic weight. While doing this, he also organized them so elements with similar characteristics were grouped together.

8 6.1 Atoms, Elements, and Compounds
Chapter 6 Chemistry in Biology 6.1 Atoms, Elements, and Compounds The Periodic Table of Elements Each different element has atoms with a different and unique number of protons. This is called the atomic number. Horizontal rows are called periods. (seven periods ) Vertical columns are called groups. The groups are numbered from 1-18 from left to right, and some of the groups have special names.

9 Group 1: excluding hydrogen Called : alkali metals (Na, K) Alkali metals are soft and silvery and react violently with water to form an alkaline (or basic) solution.

10 Group 2: Alkaline earth metals (Mg, Ca) Elements are shiny and silvery white in color. Group 17: Halogens (F, Cl, Br, I) Halogens are all very reactive and poisonous, which is why you may find these bacteria-killers in bleaches and disinfectants.

11 Group 18: Noble gases Noble gases are all colorless, odorless, and extremely un-reactive. Their inability to react easily makes them a prime candidate for gases in light bulbs.

12 Metals are found on the left side
and they all have very similar properties: they are shiny. good conductors of both heat and electricity. malleable, and ductile. Malleability and ductility refer to the substance's ability to be deformed without cracking.

13 Nonmetals: Elements to the right
They are brittle in their solid form & dull, poor conductors of heat and electricity, have much lower melting and boiling points than metals many of them are gases at room temperature.

14 Some elements have the properties of metals and nonmetals.
These elements are called metalloids, and they are found ON the 'staircase' line. Elements that are most commonly referred to as metalloids are: Boron, Silicon, Germanium, Arsenic, Antimony, & Tellurium. Silicon is the element that is found in computer chips

15 Chapter 6 Chemistry in Biology 6.1 Atoms, Elements, and Compounds Isotopes Atoms of the same element that have the same number of protons and electrons but have a different number of neutrons

16 Chapter 6 Chemistry in Biology 6.1 Atoms, Elements, and Compounds Radioactive Isotopes When a nucleus breaks apart, it gives off radiation that can be detected and used for many applications.

17 A pure substance formed when two or more different elements combine
Chapter 6 Chemistry in Biology 6.1 Atoms, Elements, and Compounds Compounds A pure substance formed when two or more different elements combine Compounds are always formed from a specific combination of elements in a fixed ratio. Compounds cannot be broken down into simpler compounds or elements by physical means.

18 Chemical bond that forms when electrons are shared
Chapter 6 Chemistry in Biology 6.1 Atoms, Elements, and Compounds Chemical Bonds Covalent bonds Chemical bond that forms when electrons are shared A molecule is a compound in which the atoms are held together by covalent bonds.

19 Chapter 6 Chemistry in Biology 6.1 Atoms, Elements, and Compounds Ionic Bonds Electrical attraction between two oppositely charged atoms or groups of atoms

20 The elements identified as metals tend to donate electrons.
Chapter 6 Chemistry in Biology 6.1 Atoms, Elements, and Compounds Some atoms tend to donate or accept electrons more easily than other atoms. The elements identified as metals tend to donate electrons. The elements identified as nonmetals tend to accept electrons.

21 Chapter 6 Chemistry in Biology 6.1 Atoms, Elements, and Compounds Most ionic compounds are crystalline at room temperature and have higher melting points than molecular compounds formed by covalent bonds.

22 Chapter 6 Chemistry in Biology 6.1 Atoms, Elements, and Compounds van der Waals Forces When molecules come close together, the attractive forces between slightly positive and negative regions pull on the molecules and hold them together. The strength of the attraction depends on the size of the molecule, its shape, and its ability to attract electrons.

23 Reactants and Products
Chapter 6 Chemistry in Biology 6.2 Chemical Reactions Reactants and Products A chemical reaction is the process by which atoms or groups of atoms in substances are reorganized into different substances. Chemical reaction Clues that a chemical reaction has taken place include the production of heat or light, and formation of a gas, liquid, or solid. Physical reaction

24 Reactants are the starting substances, on the left side of the arrow.
Chapter 6 Chemistry in Biology 6.2 Chemical Reactions Chemical Equations Chemical formulas describe the substances in the reaction and arrows indicate the process of change. Reactants are the starting substances, on the left side of the arrow. Products are the substances formed during the reaction, on the right side of the arrow.

25 Glucose and oxygen react to form carbon dioxide and water.
Chapter 6 Chemistry in Biology 6.2 Chemical Reactions Glucose and oxygen react to form carbon dioxide and water.

26 Chapter 6 Chemistry in Biology 6.2 Chemical Reactions Balanced Equations The law of conservation of mass states matter cannot be created or destroyed. The number of atoms of each element on the reactant side must equal the number of atoms of the same element on the product side.

27 Chapter 6 Chemistry in Biology 6.2 Chemical Reactions Energy of Reactions The activation energy is the minimum amount of energy needed for reactants to form products in a chemical reaction.

28 This reaction is exothermic and released heat energy.
Chapter 6 Chemistry in Biology 6.2 Chemical Reactions This reaction is exothermic and released heat energy. The energy of the product is lower than the energy of the reactants.

29 This reaction is endothermic and absorbed heat energy.
Chapter 6 Chemistry in Biology 6.2 Chemical Reactions This reaction is endothermic and absorbed heat energy. The energy of the products is higher than the energy of the reactants.

30 It does not increase how much product is made and it does not get used
Chapter 6 Chemistry in Biology 6.2 Chemical Reactions Enzymes A catalyst is a substance that lowers the activation energy needed to start a chemical reaction. It does not increase how much product is made and it does not get used up in the reaction. Enzymes are biological catalysts.

31 The reactants that bind to the enzyme are called substrates.
Chapter 6 Chemistry in Biology 6.2 Chemical Reactions The reactants that bind to the enzyme are called substrates. The specific location where a substrate binds on an enzyme is called the active site.

32 Chapter 6 Chemistry in Biology 6.2 Chemical Reactions The active site changes shape and forms the enzyme-substrate complex, which helps chemical bonds in the reactants to be broken and new bonds to form. Factors such as pH, temperature, and other substances affect enzyme activity.

33 Polarity is the property of having two opposite poles.
Chapter 6 Chemistry in Biology 6.3 Water and Solutions Water’s Polarity Molecules that have an unequal distribution of charges are called polar molecules. Polarity is the property of having two opposite poles. A hydrogen bond is a weak interaction involving a hydrogen atom and a fluorine, oxygen, or nitrogen atom.

34 6.3 Water and Solutions Chapter 6 Chemistry in Biology
Visualizing Properties of Water Enzyme-Controlled Reactions

35 A mixture that has a uniform composition throughout
Chapter 6 Chemistry in Biology 6.3 Water and Solutions Homogenous Mixtures A mixture that has a uniform composition throughout A solvent is a substance in which another substance is dissolved. A solute is the substance that is dissolved in the solvent. Food coloring dissolved in water forms a homogenous mixture.

36 Heterogeneous Mixtures
Chapter 6 Chemistry in Biology 6.3 Water and Solutions Heterogeneous Mixtures In a heterogeneous mixture, the components remain distinct. A salad is a heterogeneous mixture.

37 6.3 Water and Solutions Acids and Bases
Chapter 6 Chemistry in Biology 6.3 Water and Solutions Acids and Bases Substances that release hydrogen ions (H+) when dissolved in water are called acids. Substances that release hydroxide ions (OH–) when dissolved in water are called bases.

38 The measure of concentration of H+ in a solution is called pH.
Chapter 6 Chemistry in Biology 6.3 Water and Solutions pH and Buffers The measure of concentration of H+ in a solution is called pH. Acidic solutions have pH values lower than 7. Basic solutions have pH values higher than 7.

39 Chapter 6 Chemistry in Biology 6.3 Water and Solutions Buffers are mixtures that can react with acids or bases to keep the pH within a particular range.

40 The element carbon is a component of almost all biological molecules.
Chapter 6 Chemistry in Biology 6.4 The Building Blocks of Life Organic Chemistry The element carbon is a component of almost all biological molecules.

41 6.4 The Building Blocks of Life
Chapter 6 Chemistry in Biology 6.4 The Building Blocks of Life Carbon has four electrons in its outermost energy level. One carbon atom can form four covalent bonds with other atoms. Carbon compounds can be in the shape of straight chains, branched chains, and rings.

42 Carbon atoms can be joined to form carbon molecules.
Chapter 6 Chemistry in Biology 6.4 The Building Blocks of Life Macromolecules Carbon atoms can be joined to form carbon molecules. Macromolecules are large molecules formed by joining smaller organic molecules together. Polymers are molecules made from repeating units of identical or nearly identical compounds linked together by a series of covalent bonds.

43 Chapter 6 Chemistry in Biology 6.4 The Building Blocks of Life Carbohydrates Compounds composed of carbon, hydrogen, and oxygen in a ratio of one oxygen and two hydrogen atoms for each carbon atom—(CH2O)n

44 Two monosaccharides joined together form a disaccharide.
Chapter 6 Chemistry in Biology 6.4 The Building Blocks of Life Values of n ranging from three to seven are called simple sugars, or monosaccharides. Two monosaccharides joined together form a disaccharide. Longer carbohydrate molecules are called polysaccharides.

45 Molecules made mostly of carbon and hydrogen
Chapter 6 Chemistry in Biology 6.4 The Building Blocks of Life Lipids Molecules made mostly of carbon and hydrogen A triglyceride is a fat if it is solid at room temperature and an oil if it is liquid at room temperature.

46 Chapter 6 Chemistry in Biology 6.4 The Building Blocks of Life Lipids that have tail chains with only single bonds between the carbon atoms are called saturated fats. Lipids that have at least one double bond between carbon atoms in the tail chain are called unsaturated fats. Fats with more than one double bond in the tail are called polyunsaturated fats.

47 A compound made of small carbon compounds called amino acids
Chapter 6 Chemistry in Biology 6.4 The Building Blocks of Life Proteins A compound made of small carbon compounds called amino acids Amino acids are small compounds that are made of carbon, nitrogen, oxygen, hydrogen, and sometimes sulfur.

48 Amino acids have a central carbon atom.
Chapter 6 Chemistry in Biology 6.4 The Building Blocks of Life Amino acids have a central carbon atom. One of the four carbon bonds is with hydrogen. The other three bonds are with an amino group (–NH2), a carboxyl group (–COOH), and a variable group (–R).

49 6.4 The Building Blocks of Life
Chapter 6 Chemistry in Biology 6.4 The Building Blocks of Life The number and the order in which the amino acids are joined define the protein’s primary structure. After an amino acid chain is formed, it folds into a unique three-dimensional shape, which is the protein’s secondary structure, such as a helix or a pleat.

50 Provide structural support Control cell growth Communicate signals
Protein’s Function: it is nearly involved in every function In y our body Provide structural support Control cell growth Communicate signals Transport substances Speed up chemical reactions

51 6.4 The Building Blocks of Life
Chapter 6 Chemistry in Biology 6.4 The Building Blocks of Life Nucleic acids are complex macromolecules that store and transmit genetic information. Nucleic acids are made of smaller repeating subunits called nucleotides, composed of carbon, nitrogen, oxygen, phosphorus, and hydrogen atoms.

52 Two types of nucleic acids are found in living things:
DNA: Deoxyribonucleic Acid. DNA is the genetic code, stores all instructions to grow reproduce and adapt RNA: Ribonucleic Acid. RNA use the information stored in DNA to make protiens


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