Unit One

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What is the pH of a solution with a hydroxide ion concentration [OH-] of 10-13 M?

1

oven cleaner (pH 13) is approximately _________ times more acidic or basic than baking soda (pH 9) 4; basic 4; acidic 100; basic 1,000; basic 10,000; basic

10,000; basic

How many neutrons are there in an ion with 100 electrons, a charge of -1, and a mass number of 200?

101

What is the hydroxide ion concentration in pure water?

10^-7 M

Iodine has an atomic number of 53. The most common isotope of iodine is 127I. Radioactive iodine (131I) is commonly used in medical situations for the diagnosis and treatment of thyroid conditions. Which of the following statements is/are true about these isotopes? 127I has 53 protons. 131I has 53 protons. 127I has 74 neutrons. 131I has 74 neutrons. 127I has 53 electrons. 131I has 78 electrons.

127I has 53 protons. 131I has 53 protons. 127I has 74 neutrons. 127I has 53 electrons.

What would be the pH of a substance that has 10,000x more hydroxide ions (OH-) than a substance with a pH of 9?

13

The atomic number of potassium is 19. How many electrons are in a potassium ion(K+)?

18

Calcium has an atomic number of 20 and an atomic mass of 40. Therefore, in elemental form, a calcium atom must have 20 protons. 40 protons. 20 electrons. 40 electrons. 20 neutrons. 40 neutrons.

20 protons 20 electrons 20 neutrons

if a DNA sample was composed of 30% thymine, what would be the percent of guanine?

20%

How many water molecules would it take to completely hydrolyze a polysaccharide comprised of 25 glucose monomers?

24

How many kilocalories are required to change the temperature 1,000 grams of water 25°C?

25

What is the mass number of an ion with 101 electrons, 151 neutrons, and a -1 charge?

251

What is the mass number of an ion with 109 electrons, 149 neutrons, and a +1 charge?

259

In a hydrocarbon with only single bonds and 12 carbons, how many hydrogens are there?

26

What is the mass number of an ion with 108 electrons, 159 neutrons, and a +1 charge?

268

What is the mass number of an ion with 109 electrons, 159 neutrons, and a +1 charge?

269

antiparallel orientation of DNA

3' end of one strand is bound to the 5' end of the second strand

Suppose you build a fire with a bag of Cheetos that has 300,000 calories. You use the fire to heat a 10 kilogram pot of water. In degrees Celcius, what will be the approximate increase in the temperature of the water?

30

What is the approximate atomic mass, in daltons, of an atom with 16 neutrons, 15 protons, and 15 electrons?

31

14C is a radioactive isotope of carbon (atomic number 6). How many electrons are in the valence shell of 14C?

4

What is the pH of a solution with a hydroxide ion concentration [OH-] of 10-10 M?

4

a DNA sample was composed of 10% thymine, what would be the percentage of guanine?

40%

What is the pH of a solution with a hydroxide ion concentration [OH-] of 10-8 M?

6

How many molecules of glycerol are in 4L of a 0.25M solution of glycerol?

6.02 x 10^23

How many calories are needed to raise the temperature of 1 kilogram of water 7°C?

7,000

Elemental chlorine has an atomic number of 17. How many electrons are in the valence shell of a chloride ion (Cl-)?

8

Suppose it takes 4 calories to change a light bulb. How many kilocalories would it take to change 2,000 light bulbs?

8

What is the pH of a solution with a hydroxide ion concentration [OH-] of 10-6 M?

8

How many water molecules do you need to completely hydrolyze a polymer that is 100 monomers long?

99

purine

Adenine and guanine

Which function group behaves as a base?

Amino

A molecule with the formula CH3CH(NH2)COOH is probably a(n) Amino acid Nucleic acid Hydrocarbon Fatty acid Carbohydrate

Amino acid

isotopes

Atoms of the same element that have different numbers of neutrons

One of the buffers that contributes to pH stability in human blood is carbonic acid, H2CO3, which is formed when CO2, the waste product of cellular respiration, reacts with water in blood. Carbonic acid is a weak acid that when placed in an aqueous solution dissociates into a bicarbonate ion (HCO3-) and a hydrogen ion (H+). Thus: CO2 + H2O ↔ H2CO3 ↔ HCO3- + H+ Which of the following will occur if the pH of the blood decreases? Carbonic acid will dissociate into a bicarbonate ions and hydrogen ions. Bicarbonate ions will join to hydrogen ions, forming carbonic acid. The forward reaction will be favored. The reverse reaction will be favored. Respiration rate will increase. Respiration rate will decrease. You will immediately die.

Bicarbonate ions will join to hydrogen ions, forming carbonic acid. The reverse reaction will be favored. Respiration rate will increase.

What would be the molecular formula for a polymer made by linking ten of the molecules from the previous question together?

C40H62O31

What is the formula for a typical monosaccharide that has four carbons? C4H10O4 C4H8O4 C4H6O4 C4H4O4 none of these

C4H8O4

Which includes all the others? Glycogen Starch Carbohydrate Monosaccharide Polysaccharide Disaccharide Cellulose

Carbohydrate

One of the buffers that contributes to pH stability in human blood is carbonic acid, H2CO3, which is formed when CO2, the waste product of cellular respiration, reacts with water in blood. Carbonic acid is a weak acid that when placed in an aqueous solution dissociates into a bicarbonate ion (HCO3-) and a hydrogen ion (H+). Thus: CO2 + H2O ↔ H2CO3 ↔ HCO3- + H+ Which of the following will occur if the pH of the blood increases? Carbonic acid will dissociate into a bicarbonate ions and hydrogen ions. Bicarbonate ions will join to hydrogen ions, forming carbonic acid. The forward reaction will be favored. The reverse reaction will be favored. Respiration rate will increase. Respiration rate will decrease. You will immediately die.

Carbonic acid will dissociate into a bicarbonate ions and hydrogen ions. The forward reaction will be favored. Respiration rate will decrease.

hydrocarbon generic formula

CnH2n+2

What type of bond joins together hydrogen atoms?

Covalent bonds

nucleic acid types

DNA and RNA

central dogma of molecular biology

DNA to mRNA (transcription) to protein (translation)

The loss of the tertiary structure of a protein is specifically referred to as...

Denaturation

An energy level of electrons at a characteristic average distance from the nucleus of an atom is specifically referred to as an...

Electron shell

Which is not a polymer? Glucose DNA Adenine Cellulose Starch

Glucose and adenine

hydronium ion

H3O+

What functional group is a characteristic of alcohol?

Hydroxyl

hydroxide ion

OH-

The tertiary structure of a protein is not directly dependent on Bonds between sulfur atoms Hydrophobic interactions Peptide bonds Ionic bonds Hydrogen bonds

Peptide bonds

During transcription, what type of bonds are formed?

Phosphodiester bonds

Name two large biological molecules that we have discussed in class that contain a phosphate functional group

Phospholipids and nucleic acids

Which of the following statements about the ends of a polynucleotide strand of DNA are correct? The 5' end has a hydroxyl group attached to the number 5 carbon of ribose. The 5' end has a phosphate group attached to the number 5 carbon of deoxyribose. The 3' end has a hydroxyl group attached to the number 3 carbon of ribose. The 3' end has a phosphate group attached to the number 3 carbon of ribose. Both the 5' and 3' ends are identical.

The 5' end has a phosphate group attached to the number 5 carbon of deoxyribose. The 3' end has a hydroxyl group attached to the number 3 carbon of ribose.

If the pH of a solution is decreased from 9 to 8, which of the following has occurred? The concentration of H+ has decreased 10-fold (10x) from what it was at pH 9. The concentration of H+ has increased 10-fold (10x) from what it was at pH 9. The concentration of OH- has decreased 10-fold (10x) from what it was at pH 9. The concentration of OH- has increased 10-fold (10x) from what it was at pH 9. The pH has become more acidic. The pH has become more basic.

The concentration of H+ has increased 10-fold (10x) from what it was at pH 9. The concentration of OH- has decreased 10-fold (10x) from what it was at pH 9. The pH has become more acidic.

The bonding of two amino acid molecules to form a larger molecule requires The addition of a nitrogen atom The addition of a carbonyl group The release of a carbon dioxide molecule The addition of a water molecule The release of a water molecule

The release of a water molecule

Fats consist of which of the following? a pentose sugar a glycerol molecule fatty acid chains a carboxyl group coming off a central carbon atom a nitrogenous base a phosphate group an amino group coming off a central carbon atom a variable side chain coming off a central carbon atom

a glycerol molecule fatty acid chains

solution

a homogeneous mixture of two or more substances

Macromolecules

a large molecule made of subunits called monomers and polymers

When ammonia (NH3) is put into water, the following reaction occurs: NH3 + H2O ↔ NH4+ + OH-. Based on this information, we can conclude that the pH of ammonia is above 7. below 7. exactly 7. -7. There is no way to know from this information.

above 7

pH<7

acidic

nucleic acids

allow organisms to reproduce their complex components from one generation to the next

protein monomer

amino acids (20)

heat of vaporization

amount of heat a liquid must absorb for one gram to be converted from a liquid to a gaseous state

calorie

amount of heat it takes to raise one gram of water by one degree Celsius

kilocalorie (Calorie)

amount of heat it takes to raise one kilogram of water by one degree Celsius

specific heat

amount of heat that must be absorbed or lost for one gram of a substance to change by one degree Celsius

unsaturated fats

at least one double bond between carbon atoms in their fatty acid tails, with one fewer hydrogen atom on each bonded carbon (bent)

pH>7

basic

When vinegar (CH3COOH) is put into water, the following reaction occurs: CH3COOH + H2O ↔ CH3COO— + H+. Based on this information, we can conclude that the pH of vinegar is above 7 below 7 exactly 7 - 7 There is no way to know based on this information.

below 7

ionic bond

bond between two oppositely charged ions giving electrons

how does water moderate air temperature?

by absorbing heat from warmer air and releasing stored heat to cooler air

An atom that loses an electron becomes a(n) anion. cation. different isotope. different element. isomer.

cation

compounds

combination of two or more elements in a fixed ratio

organic compounds

compounds with carbon

what is the difference between covalent bonds and ionic bonds? covalent bonds involve the sharing of protons between atoms and ionic bonds involve the sharing of electrons between atoms covalent bonds involve the sharing of neutrons between atoms and ionic bonds involve the sharing of electrons between atoms covalent bonds involve the sharing of electrons between atoms and ionic bonds involve the electrical attraction between atoms

covalent bonds involve the sharing of electrons between atoms and ionic bonds involve the electrical attraction between atoms

pyrimidines

cytosine, thymine (DNA), uracil (RNA)

base

decreases H+ concentration

what is the chemical mechanism by which cells make polymers from monomers? phosphodiester linkages hydrolysis dehydration reactions ionic bonding of monomers the formation of disulfide bridges between monomers

dehydration reactions

electron orbital

describes the space where an electron spends most of its time

structural isomers

differ in the covalent arrangement of their atoms

An atom that loses a proton becomes a(n) anion. cation. different element. different isotope. isomer.

different element

An atom that gains a neutron becomes a(n) anion cation different element different isotope isomer

different isotope

solute

dissolved substance

solvent

dissolving agent

lipids

don't have true monomers and polymers classified by their hydrophobic behavior

Buffers are substances that help resist shifts in pH by releasing H+ in acidic solutions. donating H+ to a solution when they have been depleted. releasing OH- in basic solutions. accepting H+ when the are in excess.

donating H+ to a solution when they have been depleted. accepting H+ when the are in excess.

nitrogen is much moire electronegative than hydrogen. Which of the following statements is correct about the atoms in ammonia? each hydrogen atom has a partial positive charge the nitrogen atom has a strong positive charge the nitrogen atom has a slight negative charge the nitrogen atom atom has a partial positive charge there are covalent bonds between the hydrogen atoms

each hydrogen atom has a partial positive charge

trace elements

elements required by organisms in small amounts

phospholipids

essential component of cell membranes with 1 glycerol attached to 2 fatty acids

In order to hydrolyze a fat molecule, these bonds must be broken

ester linkages

hydro carbon examples

ethane propane butan butene benzene methyl propane cyclohexane

pH scale

expresses the concentration of H+ in a solution negative log of its H+ concentration

important lipids

fats, phospholipids, steroids

A molecule with the formula C18H36O2 is probably a carbohydrate fatty acid protein nucleic acid hydrocarbon

fatty acid

During the synthesis of glycogen, these bonds are formed

glycosidic linkages

protein secondary structure

has regions of repetitive coiling or folding from hydrogen bonding between amino acid backbones

geometric isomers

have the same covalent arrangements but have different spatial arrangements because of a double bond (cis/trans)

In order to separate two strands of a DNA double helix, these bonds must be broken.

hydrogen bonds

what elements make up 96% of living matter?

hydrogen, oxygen, nitrogen, carbon

function groups

hydroxyl carbonyl carboxyl amino sulfhydryl phosphate methyl

acid

increases H+ concentration

enantiomers

isomers that are mirror images of each other

steroids

lipids characterized by having a carbon skeleton with four fused rings

fats (triacylglycerols)

made of 1 glycerol and 3 fatty acid molecules joined by ester linkages

matter

made up of elements

surface tension

measure of how hard it is to stretch or break a liquid's surface

dehydration reaction

monomers becoming covalently bonded

cohesion

multiple water molecules are held together by hydrogen bonds

pH=7

neutral

nucleoside

nitrogenous base + pentose sugar

what are nucleotides made of

nitrogenous base, pentose sugar, phosphate group

saturated fats

no double bonds between carbon atoms in their fatty acid tails and are "saturated" with hydrogen

How many water molecules are required to link together 40 glucose molecules? 41 40 39 38 none; water molecules will be released.

none; water molecules will be released.

nucleic acid monomer

nucleotide

Which of the following molecules contain a phosphate group? nucleotides amino acids carbohydrates phospholipids steroids

nucleotides phospholipids

polynucleotides

nucleotides linked together by phophodiester linkages

We can be sure that a mole of sucrose (C12H22O11) and a mole of the amino acid valine (C5H11NO2) are equal in their mass in daltons. mass in grams. number of molecules. number of atoms. volume.

number of molecules

relationship between [OH-] and [H+]

one goes up, the other goes down

thiols

organic compounds containing -SH

hydrocarbons

organic molecules made of only carbon and hydrogen

protein tertiary structure

overall 3D shape of a protein

inside of DNA helix

paired nitrogenous bases held together by hydrogen bonds ( AT: 2, GC: 3)

type of bond holding amino acids together

peptide bond

During the process known as translation, these bonds are formed

peptide bonds

protein polymers

peptides and polypeptides

In order to break a strand of RNA into its monomers, these bonds must be broken

phosphodiester bonds

in a single molecule of water, two hydrogen atoms are bonded to a single oxygen atom by hydrogen bonds non polar covalent bonds polar covalent bonds ionic bonds van der Waals interactions

polar covalent bonds

hydrolysis

polymers broken down to monomers

polysaccharides

polymers with hundreds to thousands of monosaccharides joined by glycosidic linkages

Protein structure

primary, secondary, tertiary, quaternary

chaperonins

proteins helping other proteins fold correctly

subatomic particles

protons, neutrons, electrons

types of nitrogenous bases

purines and pyrimidines

types of pentose sugars

ribose (RNA) and deoxyribose (DNA)

protein primary structure

sequence of amino acids

monosaccharides

simple sugars with a CH2O general formula

atoms

smallest unit of matter still containing the properties of an element

protein quaternary structure

some proteins require two or more polypeptides to aggregated to have a functional molecule

glycogen

storage polysaccharide in animals

starch

storage polysaccharide in plants

cellulose

structural polysaccharide in plants

chitin

structural polysaccharide in the exoskeleton of arthropods and the cell walls of fungi

buffer

substance minimizing the changes in concentration of H+ and OH- in a solution

elements

substances that can't be broken down by chemical reactions

carbohydrates

sugars and polymers of sugars

mass number

sum of protons and neutrons in an atom's nucleus

which statement is true of all atoms that are cations? the atom has more electrons than protons the atom has more protons than electrons the atom has fewer protons than a neutral atom of the same element the atom has more neutrons than protons none of the above are true

the atom has more protons than electrons

pure, freshly distilled water has a pH of 7. This means that there are no H+ ions in the water there are no OH- ions in the water the concentration of H+ ions and OH- ions in the water are equal the concentration of H+ ions in the water is 7 times the concentration of OH- ions in the water the concentration of OH- ions in the water is 7 times the concentration of H+ ions in the water

the concentration of H+ ions and OH- ions in the water are equal

chemical bond

the force that holds two atoms together

atomic number

the number of protons in the nucleus of an atom

disaccharides

two monosaccharides joined together by a glycosidic linkage

molecule

two or more atoms held together by covalent bonds

hydrogenerated oils

unsaturated fats that have been synthetically converted to saturated fats

trans fats

unsaturated fats with trans double bonds

hydrogen bond

weak bond between a hydrogen atom and an electronegative atom on a different molecule

van der waals interactions

weak forces resulting from electrons becoming unevenly distributed

denaturation

when a protein unravels losing its original shape, becoming biologically inactive

covalent bond

when two atoms share electrons

chemical equilibrium

where the forward reaction rate and the reverse reaction rate are equal


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