Chemistry/Physics Flashcards

Question 1

Q

Chromatography “Separation and Purification methods” OCR: p. 112

Answer

A

the primary reason for chemical separation during a chromatographic separation on cellulose is that the relative amount of hydrogen bonding to the stationary phase will determine the relative rate of migration of the various components in the sample

Question 2

Q

The variety of opsins “How light and sound interact with matter”

Answer

A

enable the detection of different colors

Question 3

Q

Retinal Binding Site

BR p. 48

Answer

A

hydrophobic environment (retinal is mainly carbon and hydrogen)

Question 4

Q

Rf Values with developed chromatography plates “Separation and purification methods.”

Answer

A

Rf is the ratio of the distance travelled by the analyte relative to the solvent front during a chromatographic separation. - equation: distance of substance investigated / distance of solvent front

Question 5

Q

Stereospecific/ Stereospecific Reaction “Nature of molecules and intermolecular interactions.” OCR p. 45

Answer

A

meaning rxn produces only one form of product - a rxn in which the stereochemistry of the reactant completely determines the stereochemistry of the product without any other option.

Question 6

Q

Rhodopsin “Principles of chemical thermodynamics and kinetics.”

Answer

A

ATP (required for kinase activity): source of phosphate groups added to the molecule

Question 7

Q

Hybridization States

“Nature of molecules and intermolecular interactions.”

Answer

A

Steric Number = # bonded Atoms + Lone pairs

4 = sp^3

3 = sp^2
2= sp

Question 8

Q

amine group “functional group” “Structure, function, and reactivity of biologically-relevant molecules.”

Answer

A

the functional group that forms during peptide bond formation is known as an amide group.

Question 9

Q

Aldehyde functional group

Question 10

Q

Carbonyl

Question 11

Q

Ketone

Question 12

Q

Acetal

Question 13

Q

Hemiacetal

Question 14

Q

Imine

Question 15

Q

Enamine

Question 16

Q

Aldol

Question 17

Q

Alcohol

Question 18

Q

Carboxylic Acid

Question 19

Q

Amide

Question 20

Q

Ester

Question 21

Q

Lipase

BR: p. 48

Answer

A

hydrolyzes fatty acids

Question 22

Q

Anhydride

Question 23

Q

Phenol

Question 24

Q

What affects rate of subsitution in a reaction?

OCR:

Answer

A

The rate of substitution of protonated alcohols is subject to steric hindrance. This inhibits the ability of nucleophiles to collide with the reacting electrophilic center and slows the rate of reaction.

Question 25

Q

pH

BCR p. 51

Answer

A

pH = -log[H+]

[H+] = 10^-pH

pOH = -log[OH-]

pH + pOH = 14

difference of 3 pH units = 1000-fold difference in proton concentration

Question 26

Q

If Reaction 2 (Figure 4) is repeated with HCl and the compound shown next to the reaction, which of the following compounds is NOT a direct product (without rearrangement)?

Answer

A

the structure shown in this response requires an additional shift of hydride atoms prior to elimination and is therefore NOT a direct product.

Question 27

Q

In a gas-liquid chromatograph, the first peak observed in the gc trace is attributable to which compound?

OCR p.123

Answer

A

Whichever compound will exhibit the lowest molecular weight and also the weakest intermolecular forces of attraction will therefore migrate the fastest and be the first peak in the gas chromatograph (gc) trace.

Question 28

Q

Acid Dissociation

BCR p. 69

Answer

A

higher Ka (acid dissociation)/ lower pka: stronger acid
acid dissociation: net positive charge vs net negative charge acid - the net negative charge will be weaker acid / dissociate to a smaller extent

Question 29

Q

Glycogen/Glycogenesis

BCR: p. 123

Answer

A

Most glucose units in glycogen are linked by α-1,4-glycosidic bonds

-branching with glycogen: α-1,6-glycosidic bond

Glycogen: polymer of glucose in muscle/liver cells
Glycogenesis: glu-6-p→ isomerized in reversible rxn to glu-1-P w/ phosphoglucomutase → glu-1-p is activated w/ UTP to form UDP-glucose→ added to glycogen polymer by glycogen synthase

Question 30

Q

What is the product of the reaction of Compound 1 (nxt to rxn) with HBr by the pathway shown in Figure 3?

OCR

Answer

A

(S)-1-bromo-1-deuteriopentane

because the incoming nucleophile displaces the leaving group form the opposite side of the reacting center during an SN2 reaction.

Question 31

Q

UDP

Answer

A

deals with glycogen synthase
contains uridine (nucleic acid used in RNA)
structure of RNA contains ribose
KNOW STRUCTURE OF RIBOSE

Question 32

Q

Phosphatase

Answer

A

removes phosphate group from a protein
removal of phosphate prior to gel electrophoresis –> decrease in band intensity

Question 33

Q

thin lens equation

an object O is at a distance of three focal lengths from the center of a convex lens. What is the ratio of the height of the image to the height of the object?

Answer

A

(1/o) + (1/i) = (1/f)
magnification: -i/o
if asked for ratio of height of image to height of object (given height of object): solve for i and then plug into magnification formula
Object distance = 3f, focal length = f, image distance = i.
1/o + 1/i = 1/f –> 1/3f + 1/i = 1/f. R
1/i = 1/f - 1/3f ==> 1/i = 2/3f ==> i = 1.5f.

Plug this into the magnification formula m = -i/o and you get 1.5f/3f = (1/2)

Question 34

Q

Gamma decay

Answer

A

occurs when nucleus emits photons

Question 35

Q

spontaneous vs nonspontaneous reactions

Answer

A

spontaneous: negative ΔG, positive ΔS°, negative ΔH ( - reaction that create gaseous products from solids and liquids = positive ΔS°)
nonspontaneous: positive ΔG, negative ΔS°, positive ΔH

Question 36

Q

net sum of chemical reactions

Question 37

Q

catalysts

Answer

A

If a homogeneous catalyst cannot be separated from the products at the end of a reaction: products will be contaminated with the catalyst

Question 38

Q

If solid catalyst is finely ground before it is added to the reaction mixture:

Answer

A

Faster rxn rate: a greater surface area of catalyst will be exposed.
grinding a heterogeneous catalyst increases the amount of catalyst available to the reaction and therefore increases its rate

Question 39

Q

V = IR

Question 40

Q

oxidation-reduction reactions / metal strips in solutions

GCR p. 268

Answer

A

this link is very helpful:

https: //chem.libretexts.org/Bookshelves/Analytical_Chemistry/Supplemental_Modules_(Analytical_Chemistry)/Electrochemistry/Redox_Chemistry/Balancing_Redox_reactions
- putting a metal strip in a solution: if it results in a solid –> metal strip is oxidized and the other ion has higher reduction potential…make two half-reactions and balance # e- (if solution is oxidized: e- go on right side) –> add together to get new equation
- spontaneous reaction: E° is greater than zero; 1) make half-reaction equation and take values (reverse signs based on which ion is oxidized in solution)

Question 41

Q

Question 42

Q

common ion effect with solubility

GCR: p. 216

Answer

A

If you have a solution and solute in equilibrium, adding a common ion (an ion that is common with the dissolving solid) decreases the solubility of the solute. This is because Le Chatelier’s principle states the reaction will shift toward the left (toward the reactants) to relieve the stress of the excess product. When equilibrium is shifted toward the reactants, the solute precipitates.

Question 43

Q

molarity (M)

Answer

A

mol/V

M = molar concentration

n = moles solute

v = liters solution

Question 44

Q

Units of Power (P)

Answer

A

watt, defined as J/s = ft•lb/s = kg•m2/s3

Question 45

Q

Amino acid substitution / pKa

Answer

A

-naming: original amino acid, position, new amino acid

pH is less than pKa of acidic group = acidic group is in protonated form
pH is greater than pKa of acidic group = deprotonated form
Acids with low pKa deprotonate easily

Question 46

Q

radioactive decay

GCR p. 53

Answer

A

alpha decay: large nucleus wants to become more stable by reducing # protons and neutrons (atomic # -2; atomic mass -4)

beta decay: when unstable nucleus contains too many neutrons –> convert neutron to proton and electron (atomic # +1)

gamma decay: after the nucleus has undergone alpha or beta decay, it can “relax” to its ground state by emitting photons (atomic # stays same)

Question 47

Q

Oxidizing and Reducing Agents

Ex question from mock MCAT 1 bio q. 53: When a strip of Zn is placed in a beaker containing 0.1 M HCl, H2(g) evolves. If a strip of Al is placed in a beaker containing 0.1 M HCl, does H2(g) evolve?

Answer

A

Because Zn has higher reduction potential, since H2 gas evolves when in the presence of Zn(s), and Al(s) has an even higher oxidation potential than Zn(s), we know that H2 gas must evolve - or in other words, H+ must be reduced - when in the presence of Al(s).

(If Zn can reduce H+, then Al definitely can because it’s stronger than Zn.)

Note:

The more negative the reaction potential –> stronger reducing agent

Question 48

Q

nuclear localization signal

BR p. 176

Answer

A

larger proteins cannot pass freely through nuclear pores and are excluded from nuclear interior unless they contain sequence of basic amino acids

- if they have sequence = translated on cytoplasmic ribosomes and then imported into the nucleus by specific transport mechanisms

basically a signal that guides a protein molecule to the nucleus; useful to up/down regulate certain cellular processes and products
permits proteins to enter the nucleus (not likely for transmembrane protein)

Question 49

Q

signal sequence

Answer

A

what allows proteins to enter the rough ER (proteins that are either going to be secreted from the cell or perform their function within the cell membrane)
transmembrane proteins: located in cell membrane (enter the endomembrane system by docking at the rough ER w/ signal sequence)
definition: short sequence of AA (usually found at N-terminus) of a protein being translated, that directs the ribosome and its associated mRNA to the membranes of rough ER where translation will be completed; found on membrane-bound proteins, secreted proteins, and proteins destined for other organelles

Question 50

Q

mature mRNA

Answer

A

has been spliced and processed; ready for translation
not likely to contain introns or promoter sequences!

Question 51

Q

Transmembrane domains

Answer

A

similar to signal sequence, but they are located in middle of protein, not removed after translation, and occur on integral membrane proteins

Question 52

Q

Metric Units

There are 6 MCAT-relevant base units

Question 53

Q

Prefixes

6 prefixes, symbol, and “multiple”

Question 54

Q

Molarity

Answer

A

moles of solute per liter of solution

most common way of expressing solution concentrations

Question 55

Q

Liter units

Answer

A

1000L = 1m^3

1L = 1000cm^3

1mL = 1cm^3 = 1cc

Question 56

Q

Angstrom

Answer

A

unit of length = 10^-10 m

used with atomic radii and bond lengths

Question 57

Q

order of magnitude

Q: By how many order of magnitude is a centimeter longer than an angstrom?

Answer

A

An order of magnitude is a factor of 10.

Since 1cm = 10^-2 m and 1 Angstrom = 10^-10, a centimeter is 8 factors of ten greater than an angstrom.

Question 58

Q

Density

Answer

A

of a substance is its mass per volume

p = mass/volume = m/v

In SI units: (kg/m^3)

In chem: (g/cm^3)

g/cm^3 –> multiple by 1000 –> kg/m^3

Question 59

Q

Empirical formula

Answer

A

the smallest whole numbers that give the same ratio of atoms

to go from molecular formula to emperical, divide subscripts by their greatest common factor

Question 60

Q

Know the general “look” of these polyatmoic ions

Question 61

Q

formula weight

atomic mass unit

Answer

A

is the sum of the atomic weights of all the atoms in the molecule
is the unit for atomic weight (amu)

Question 62

Q

atomic number (Z)

Answer

A

# protons

Question 63

Q

mass number (A)

Answer

A

protons + # neutrons

Question 64

Q

isotope

Answer

A

elements differ in # neutrons (different mass numbers)

Answer 45

A

when a compoudn exists as discrete molecules, this term is used instead of formula weight

ex) H2O molecular weight: 2(1) + 16 = 18
ex) NaCl formula weight (which is usually used to ionic compounds): 23 + 35.5 = 58.5

Answer 46

A

6.02 x 10^23 “entities”
Na or No
A’s number is the link between atmoic mass units and grams
# moles = mass in grams / molecular weight (MW)

Answer 47

A

a molecule’s molecular or emperical formula can be used to determine the molecule’s percent mass composition
ex) C2H2N

2(12) + 2(1) + 14 = 40

%C: 2(12)/40 = 60%

Answer 48

A

expresses the concentration of a solution in terms of moles of solute per volume (in liters) of solution

Molarity (M) = # moles of solute / # liters of solution

concentratoin is denoted by enclosing the solute in brackets

Answer 49

A

expresses the fraction of moles of a given substance

mole of fraction of S = Xs = # moles of substande S / total # moles of solution

useful way to express con when more than one solute is present; used when discussing composition of mixture of gases

Answer 50

A

the amount of matter (mass) does not change in a chemical reaction

Answer 51

A

If a photon hits an atom and the energy of the photon is the same as the gap between two electron energy levels in the atom, then the electron in the lower energy level can absorb the photon and jump up to the higher energy level. If the photon energy does not correspond to the difference between two energy levels then the photon will not be absorbed (it can still be scattered).

The absorbed photons show up as black lines because the photons of these wavelengths have been absorbed and do not show up!! (gaps in space correspond to photons getting absorbed)

Answer 52

A

tell us in what proportion the reactants react and in what proporiton the products are formed

they preceed each compound

ex) 2 Al + 6 HCL –> 2 & 6 are stoich coef

Answer 53

A

1) start with most complex molecule
2) do math lol

Answer 54

A

know how to do equations like this

Answer 55

A

since we run out of this reactant first, it limits how much product the reaction can produce

know how to do probelms like this

Answer 56

A

indicates how the atom’s “ownership” of it’s valence electrons changes when it forms a compound

ex) NaCl –> Na+1 bc it “donates” an electron in the covalent bond between itself and Cl, while Cl accepts the e- and has a -1 oxidation state

The _____state of an atom is the “charge” it would have if the compound were ionic.

Answer 57

A

Exception to rule 6: in peroxides (H2O2 or Na2 O2), O2 is in a -1 oxidation state

Answer 58

A

light getting emitted

LIGHT BANDS on dark screen

The amount of energy absorbed by the electron to move into a higher level is the same as the amount of energy released when returning to the original energy level.

refer to hydrogen absorption spectra for more info

Answer 59

A

FONClBrISCH (“fawn-cull-brish”)

most electronegative (F) –> least (H)

Bonds from H to anyting not found in the list will give H a -1 oxidation state

Answer 60

A

As energy goes up, wavelength decreases and frequency increases

Answer 61

A

Replace the hydroxyl oxygen of ethanol with O-18.

this experiment involves labeling a group which does not exchange with other groups present prior to reaction and will therefore give information about the true identity of the groups, which are exchanged during the reaction.

whether or not that O18 is in the final compound will give us the information we want. If it is in the compound, we know that the ethanol kept its -OH group and therefore acetic acid lost its -OH. If the O18 isn’t in the compound, that means ethanol lost its -OH instead.

Answer 62

A

51D

the strength of the eye lens is equal to the inverse of the focal length of the eye lens. Its numerical value is given by -1+(0.02 m)-1=1 D+50 D=51 D.

Answer 63

A

the stabilization of the transition state, not the substrate, provides binding energy that is used to lower the activation energy.

Answer 64

A

Adding concentrated HCl(aq)

HCl is a strong acid that will increase the amount of H+ in solution and thus decrease the percentage of CH3CO2H that ionizes.

Use Le Châtelier’s principle to identify that adding a strong acid to a solution of weak acid will decrease the amount of ionization of the latter

Answer 65

A

increases

according to Ohm’s law, current is equal to voltage divided by resistance. If current increases and resistance is constant, then voltage increases as well.

Answer 66

A

Red: 750 nm (longest wavelength)

Violet: 400 nm (shortest wavelength)

Answer 67

A

1.4

because the index of refraction of a medium is equal to the ratio of the speed of light in vacuum to the speed of light in the medium, thus it is equal to (3.0 x 108 m/s)/(2.1 x 108 m/s) = 1.4.

Index of refraction: n = c (speed of light in vacuum) / v (speed of light in medium)

Answer 68

A

shell (n): circular orbits, n=3 has higher energy than e- in 2nd shell

subshell: comprised of one or more orbitals ((s-f); each subshell contains one or more orbitals of the same energy (degenerate); subshell higher than s has multiple orbital orientations

half-filled and filled orbitals: most stable

Answer 69

A

the energy of electromagnetic radiation is directly proportional to the number of photons, and the intensity of electromagnetic radiation is defined as energy emitted per unit time. Thus, intensity is directly proportional to the number of photons emitted.

E (energy of the photon) = h (a constant) f (frequency of wave)

****need more info****

Answer 70

A

transition metals ionize from their valence s subshell before their d subshell

Answer 71

A

diamagnetic: atom has all of its e- spin-paired (at the end of the block!); repelled by magnetic fields
paramagnetic: e- are not all spin paired; attracted to magnetic fields

Answer 72

A

4.0 × 10–19 J

the energy of a photon of frequency 610 THz is equal to 6.6 x 10-34 J•s x 610 x 1012 Hz = 4 x 10-19 J.

**equation isn’t given**

Answer 73

A

6%

the pulse pressure in a healthy adult is (120 − 75) mmHg = 45 mmHg, and so the percentage is 45 mmHg/760 mmHg = 6%.

**note that 760mm Hg wasn’t provided in psg**

Answer 74

A

ground state: lowest energy configuration

excited state: any of an infinite # of configurations that have a higher energy than the lowest energy e- configuration (not an ion; e- are not lost or gained; they jump to higher energy levels within the atom)

Answer 75

A

thus, 10 minutes = 5 half-lives. Therefore, only (1/2)5 = 1/32 of the sample will be left after 10 minutes, while 31/32 of the sample will decay.

**need to go over**

Answer 76

A

to form a cation (and in general) atoms will always lose their valence e- (the ones from the highest n level) first

Answer 77

A

It can be reasoned that the interaction described is intermolecular in nature. Multiple pieces of information (from the psg) point to the fact that the interaction is disulfide bond formation, including the fact that an oxidant causes the formation of Compound 2, which can be reversed by the addition of a reducing agent.

Answer 78

A

At a potential of –0.44 V, the equilibrium between Fe and Fe2+ is independent of solution pH below pH 6.

At an applied potential of −0.44V and pH below 6, there is an equilibrium between Fe(s) and Fe2+(aq), as shown by the line of demarcation. The fact that this line moves horizontally with increasing pH up until pH = 6 means that this equilibrium is unaffected by changing the pH.

Answer 79

A

elements in same group show similar reactivity (all have same # e- in outermost shell)

metalloids: possess qualities of metals and nonmetals

Answer 80

A

d2 sp3

octahedral compounds have six σ bonds and no lone pairs. According to valence bond theory, the central atom requires the hybridization of six atomic orbitals, d2sp3.

Answer 81

A

since a property of an “ideal” gas is that it is composed of particles that have negligible volume and do not exert intermolecular forces, individual molecular volume and intermolecular forces are negligible.

Answer 82

A

as we go across a period, e- are added, but new shells are not –> e- feel greater effective nuclear charge –> radius decreases

as we go down a group, as new shells are added –> v e- experience increased shielding (smaller effective nuclear charge)–> RADIUS decreases

if we form an ion, the radius will decrease as e- are removed (the ones that are left are drawn in more closely to the nucleus); radius will increase as e- are added

Answer 83

A

across a period / up a group: IE (amt of energy necessary to remove least tightly bound e- from isolated atom) increases since v e- are more tightly bound

decreases from R to L due to decrease in effective nuclear charge
amt of energy needed to remove the least tightly bound electron from the outermost energy level of an atom (be aware: atom in full octet is stable and doesn’t want to remove 2nd least tightly bound e- for second ionization energy)
first ionization energy: creates ion with +1, then +2, etc

Answer 84

A

ability of atom to attract e- to itself in covalent bond

(greater tendency to attract e- –> greater electronegativity

increases from L to R and from bottom to top

F > O > N > Cl > Br > I > S > C =(ish) H

Answer 85

A

Z - core e-

Answer 86

A

greater stability (higher ionization potential) of diatomic
use of most energetic e- to form bonds, stabilizing them in molecule
bonds wouldn’t form if they didn’t increase electronic stability of atom (if arrangement is higher in energy –> fly apart)

Answer 87

A

if a cyclist collides with a tree:

The cyclist’s kinetic energy just before the impact will be converted into elastic and inelastic energy of deformation upon impact (related to the area under the stress versus strain curve) to cause damage to the tree and to the cyclist.

Decreasing this kinetic energy will result in a less violent collision. Because KE = (1/2)mv2, a decrease in the cyclist’s velocity would have the greatest effect (since v is squared) in lowering his KE.

Answer 88

A

a person with untreated type 1 diabetes

An individual with untreated type 1 diabetes would have decreased glucose inside of cells, leading to cellular “starvation,” even though blood glucose is high. This would cause the breakdown of fats for energy, leading to ketosis, and often dangerous increases in ketosis
note: Ketone bodies are increased when carbohydrates are lacking and the body switches to utilizing fats for energy.

Answer 89

A

greater depolarization is needed to reach threshold

Answer 90

A

cells that are hyperpolarized at rest are more difficult to depolarize to threshold

cells that are slightly depolarized at rest would be easier to depolarize to threshold

Answer 91

A

example: neurohormone; hormone goes from modified nerve cell to into the blood

secrete NT from vesicles to postsynaptic membrane

Answer 92

A

decrease in blood pH due to the buildup of ketone bodies; An individual with ketoacidosis would be expected to exhibit compensatory mechanisms that can return blood pH to normal.

Since blood pH is low, the body would drive towards expelling as much CO2 as possible by hyperventilating (increased respiratory rate)

Answer 93

A

α-glycosidic linkage

The bond between the two sugars in the diagram is an α-glycosidic linkage, because the anomeric carbon of glucose is pointing down

When β-glycosidic linkages are formed the linkage “locks” the carbohydrate in the β position, where the OH and CH2OH groups are on the same side of the ring

Answer 94

A

bond caused by the electrostatic attraction between two oppositely charged ions

Answer 95

A

covalent bonds formed between a phosphate group and pentose sugar that utilize two ester linkages; used to form backbone of nucleic acids

Answer 96

A

Formic acid (HCOOH) is a highly polar molecule, making it soluble in the polar alcoholic solvent.

Ch4 and CH2Cl(CH2)16CH3 cannot hydrogen bond with ethanol, and

CH3(CH2)16COOH has a long (18-C) nonpolar chain. Therefore, it will be less soluble in ethanol.

Answer 97

A

C-3 hydroxyl group in 6-phosphogluconate is oxidized to a ketone, promoting the loss of the carboxyl group at C-1, which is lost as CO2.

Answer 98

A

a reaction between alcohols and carboxylic acids that results in ester formation

Answer 99

A

the reaction of an enol and a carbonyl, which through a series of steps results in the synthesis of carbon-carbon bonds

Answer 100

A

cleavage that results from the addition of water

Answer 101

A

A thermodynamic equilibrium between folded and unfolded scr SH3 can be achieved through the application of shearing forces.

the thermodynamics of unfolding are slightly endergonic in the absence of force, but with the application of force, the final value of the free energy decreases, as shown in Figure 1b. Somewhere in this process ΔG will be 0 and the system will be at thermodynamic equilibrium.

Answer 102

A

Urea acts to stabilize the denatured state of scr SH3 by associating with backbone polar groups and charged side chains.

unfolding will cause entropy to increase, not decrease, due to the disordering effect of unfolding
Based on its structure, urea, CO(NH2)2, will interact with the polar moieties of a protein via hydrogen bonding, which include the peptide backbone and polar residues (charged or uncharged). By disabling intramolecular hydrogen bonding urea is capable of stabilizing the denatured state of a protein
urea is not a reducing agent and will not affect disulfide bonds!
note: Proteins can be denatured by urea through several processes. One method involves direct interaction whereby urea hydrogen bonds to polarized areas of charge, such as peptide groups. This mutual influence weakens the intermolecular bonds and interactions, weakening the overall secondary and tertiary structure. Once gradual protein unfolding occurs, water and urea can access more easily the hydrophobic inner core of the protein in question, speeding up the denaturation process.

Answer 103

A

5’-CAU-3’

Answer 104

A

A low retention time in gas chromatography is associated with a volatile (low boiling point) compound, while a high Rf in thin-layer chromatography is associated with a nonpolar compound

the best answer for this question is a nonpolar compound with a low boiling point.

Non-polar compounds move up the plate most rapidly (higher Rf value), whereas polar substances travel up the TLC plate slowly or not at all (lower Rf value)

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