chapter 4

Question 1

biofuels

Answer 1

produced from plant and animal products

Question 2

fossil fuels

Answer 2

gasoline, cars run on this

Question 3

oils and fats, like gasoline, contain chains of carbon and hydrogen atoms bound together. Breaking these bonds are forming new, lower energy bonds releasing large amounts of energy, and and

Answer 3

water and carbon dioxide

Question 4

the production of biofuels requires what

Answer 4

plant or animal sources, sunlight, air, water, and a short amount of time

Question 5

production of fossil fuels requires

Answer 5

plant and animal remains, and millions of years

Question 6

biofuels are or are not a renewable source

Answer 6

they are

Question 7

photosynthesis

Answer 7

process by which plants captures energy from the sun and stores it in the chemical bonds of sugars

Question 8

cellular respiratrion

Answer 8

process in which all living organisms release the energy stored in the chemical bonds of food molecules and use it to fuel their lives

Question 9

the energy from sunlight is stored in the chemical bonds of molecules, and when these bonds are broken, what is released

Answer 9

energy, even if the bond is made of a fossil fuel, biofuel, or molecule of food, energy is released

Question 10

energy

Answer 10

capacity to do work

Question 11

kinetic energy

Answer 11

energy of motion;
ex legs pushing a bike pedals
birds flapping wings
heat

Question 12

potential energy

Answer 12

an object doesn’t have to be moving to have the capacity to do work, stored energy that results from an object’s location or position
-doesn’t involve movement
ex water behind dam, water can flow through and spin a waterwheel
concentration gradient, moving from a high to low concentration

Question 13

chemical energy

Answer 13

storage of energy in chemical bonds (a type of potential energy)

Question 14

how is the sun’s energy divided?

Answer 14

less than 1%: captured and transformed into usable chemical energy by organisms through photosynthesis
30% space/absorbed by land and oceans
70% atmosphere and heat

Question 15

kinetic energy to potential energy

Answer 15

light energy from the sun, to energy transformed into heat, to chemical energy stored in plants

Question 16

potenetial energy to kientic energy

Answer 16

chem energy stored in muscles and liver
energy transformed into heat
kinetic energy of forward motion

Question 17

thermodynamics

Answer 17

the study of transformation of energy from one type to another, such as potential energy to kinetic energy

Question 18

first law of thermodynamics

Answer 18

energy can never be created or destroyed, can only change from one form to another

Question 19

second law of thermodynamics

Answer 19

every conversion of energy is not perfectly efficient and invariably includes the transformation of some energy into heat
-quantity of energy in the universe isn’t changing, the quality is; little by little, the amount of energy that is available to do work decreases

Question 20

adenosine triphosphate ATP

Answer 20

free floating molecule found in cells that act like a rechargeable batterys, temporarily storing energy that can be then used for cellular work in plants, animals, bacteria, and all other organism on earth
-will be available when neded

Question 21

describe the structure of atp

Answer 21

three components:
center has two of the components: small sugar molecule attached to adenine
third component: attached to the sugar and adenine is a chain of there negatively charged phosphate groups, three negative charges that repel one another, bc they store a large amount of energy that is stressed and unstable

Question 22

cells temporarily store energy in the bonds of

Answer 22

atp molecules

Question 23

potential energy can be converted to what and used for what

Answer 23

kinetic energy and used to fuel life sustaining chemical reactions
or k energy can be converted to p energy

Question 24

when plants grow where does the new tissue come from

Answer 24

carbon dioxide

Question 25

what else can photosynthesize?

Answer 25

some bacteria, and many other unicellular organisms such as kelp and other multi cellular algae

Question 26

three inputs for photosynthesis

Answer 26

light energy from the sun, carbob]n dioxide from the atmosphere, and water from the ground

Question 27

products of photosynth

Answer 27

sugar and oxygen

Question 28

chlorpolasts

Answer 28

light harvesting organelles that hold the process of photosynthesis

Question 29

stroma

Answer 29

sac-shaped organelle filled with fluid

Question 30

thlakoids

Answer 30

floats in the stroma

interconnected membranous structures, look like pancakes

Question 31

where does the conversion of light energy to chemical energy (“photo”) part of photosynth occur?

Answer 31

inside the thylakoids

Question 32

where does the production of sugars (place where “synthesis” occurs) part of photo synth occur?

Answer 32

within the stroma

Question 33

chlorophyll

Answer 33

molecule in chloroplasts that make the capture of light energy possible

Question 34

light energy

Answer 34

type of kinetic energy that is made up of photons

Question 35

photons

Answer 35

energy packets organized into waves

can heat things

Question 36

the shorter the wavelength the ___ energy the photon carries

Answer 36

more

Question 37

electromagnetic spectrum

Answer 37

a range that extends from extremely short, high energy gamma rays and x rays with wavelengths as short as one nanometer

Question 38

pigments

Answer 38

light absorbing molecules

Question 39

how do pigments work?

Answer 39

the absorb wavelengths of light within a visible range, and the energy in stimulating these nerves in our eyes then transmit electrical signals to our brains. We perceive different wavlengths within the visible spectrum as different colors

Question 40

where is chlorophyll located

Answer 40

thylakoid membrane

Question 41

chlorophyll a

Answer 41

primary photosynthetic pigment

absorbs red and blue violet wavelengths of light

Question 42

which color does chlorophyll a not absorb?

Answer 42

green and instead reflects those wavelengths

Question 43

chlorophyll b

Answer 43

absorbs blue and red-orange wavelengths, and reflects yellow-green wavelengths

Question 44

carotenoids

Answer 44

type of pigment that absorbs blue-violet and blue-green wavelengths and reflects yellow, orange, and red wavlengths

Question 45

an electron in a photosynthetic pigment that is in the excited state has two fates:

Answer 45

1) electron returns to its resting, unexcited state, releasing energy in the process, which may bump other electrons in a nearby molecule
2) excited electron is passed to another molecule

Question 46

where does the reactions of the calvin cycle occur?

Answer 46

stroma of the leaves’ of chlorplasts

Question 47

how do plants carry out the calvin cycle?

Answer 47

with energy stored in the ATP and NADPH molecules that are built in the “photo” part of photosynth

Question 48

How is the calvin cycle like magic

Answer 48

it takes individual molecules of co2 from the air and uses them to assemble visible, edible molecules of sugar

Question 49

what are the three steps to the calvin cycle

Answer 49

fixation, sugar creation, and regeneration

Question 50

Why is evaporation a problem for plants

Answer 50

bc water is essential to photosynth, growth, and the transport of nutrients; without water, plants can’t live long without water

Question 51

stomata

Answer 51

small pores on the underside of leaves; they’re primary sites for gas exchange in plants: carbon dioxide enters, and oxygen is generate as a by product and exits
when open stomata also allow water to evaporate from the plants

Question 52

why do plants close their stomata

Answer 52

to prevent too much water from evaporating

Question 53

how does closing the stomata cause problems

Answer 53

oxygen from the “photo” reactions of photosynth can’t be released from the chloroplasts, and carbon dioxide can’t enter

Question 54

length of a wave:

Answer 54

amount of energy the photon contains

Question 55

plant pigments do what to specific wavelengths?

Answer 55

absorb

Question 56

chlorophyll is the main pigment molecule in plants that

Answer 56

absorb light energy from the sun

Question 57

“photo” in photosynthesis is when

Answer 57

sunlight hits the chloroplasts of a plant’s leaves and some of the energy in this sunlight is captured and stored in ATP and in another molecule, NADPH

Question 58

NADPH

Answer 58

stores energy by accepting high-energy electrons

Question 59

How is the chlorophyll a molecule different from the rest of the pigments?

Answer 59

when its electrons are boosted to an exctied state, they do not return to their resting, unexcited state; they continually lose they’re excited electrons to a nearby molecule (primary electron acceptor)

Question 60

primary electron acceptor

Answer 60

acts like an electron vacuum; passes high energy electrons from chlorophyll a to another molecule, who passes it to another molecule, etc

Question 61

electron transport chain steps

Answer 61

1) electrons move through the etc, releasing a little energy and falling to a lower energy state
2) the released energy powers proton pumps that move hydrogen ions from the stroma and pack them inside the thylakoid
3) protons rush out of the thylakoid with great kinetic energy, which can be used to build ATP

Question 62

what happens in each step in the ETC sequence of electron handoffs?

Answer 62

electrons fall to a lower sequence of electron handoffs, the electrons then fall to a lower energy state, and then a little bit of energy is released; these bits of energy are then used to power pump the thylakoid membrane that move protons from the stroma to the inside of the thylakoid

Question 63

summary of the “photo” reaction components

Answer 63

1) water splitting photosystem
2) 1 ETC
3) NADPH producing photosystem
4) 2 ETC

Question 64

What happens during the water splitting photosystem during the “photo” reaction components of photosynthesis

Answer 64

light energy is used to transfer electrons to the primary electron acceptor, electrons are donated by water, releasing oxygen and hydrogen ions as the products

Question 65

what happens during the first etc in the “photo” reaction component of photosyntheis

Answer 65

High energy electrons are used to pump hydrogen ions into the thylakoid. The KE from the release of these ions are used to build ATP

Question 66

What happens during the NADPH-Producing photosystem during the “photo” reaction component of photosynthesis?

Answer 66

light energy is used to transfer electrons to the primary electron acceptor, electrons are donated by the ETC

Question 67

what happens during the 2 ETC of the “photo” components of photosynthesis?

Answer 67

High energy electrons are passed to NADP+ creating a NADPH

Question 68

fixation

Answer 68

plants take carbon from the air in the form of carbon dioxide and then attach/”fix” it to a visible organic molecule within the chloroplast, using an enzyme called rubisco

Question 69

what enzyme is used in fixation

Answer 69

rubisco

Question 70

sugar creation

Answer 70

organic molecule is modified into a small sugar (G3P) using energy from ATP & NADPH

Question 71

Regeneration

Answer 71

g3p molecules are rearranged to regenerate the original five carbon molecule in the cholorpolast
-clavin cycle can continue to fix teh carbon and produce molecules of g3p

Question 72

c4 photosynthesis

Answer 72

these types of plants produce an enzyme that function like sticky tape; the enzyme ahs a tremendously strong attraction for carbon dixoxide, and can find/bind carbon even when co2 is very low;
as a consequence, the plant’s stomata can be opened just a tiny bit, and let in just a little CO2.

Question 73

c3 advantage/disadvantage vs c4 advantage/disadvantage

Answer 73

c3: energy efficient//water lost to evaporation in hot climates
c4: water loss minimized in warm climates//requires more energy

Question 74

CAM photosynthesis

Answer 74

night: open stomata and let co2 into the leaves, where it binds temporarily to a holding molecule then during the day, when a carbon source is needed to make sugars int he calvin cycle, the co2 is needed to make sugars in the calvin cycle, the co2 is graudually released from the holding molecule, enabling photosynthesis to proceed while keeping the stomata closed to reduce water loss

Question 75

CAM advantage/disadvantage

Answer 75

water loss minimized in hot climates//requires more energy, slow growth

Question 76

cellular respiration

Answer 76

chemical bonds of sugar and other energy rich food molecules are broken down to release the energy that went into creating them

Question 77

input/output of cellular respiration

Answer 77

sugar and oxygen//atp molecules (energy), water, and carbon dioxide

Question 78

first step of cellular respiration

Answer 78

glycolysis

Question 79

to generate energy such fuels and glucose and other carbohydrates, such as proteins and fats, what three steps are used?

Answer 79

1) glycolysis,
2) krebs
3) etc

Question 80

glycolysis

Answer 80

splitting of sugar;

glucose is broken down, resulting in two molecules of a substance called pyruvate

Question 81

where does glycolysis occur

Answer 81

cytoplasm, and uses energy released from breaking chemical bonds in food molecules to produce ATP and NADH

Question 82

second step of cellular respiration

Answer 82

krebs cycle

-extracts energy from sugar

Question 83

kreb cycle

Answer 83

produces additional molecules of ATP, and captures a huge amount of chemical energy by producing high energy electron carriers

Question 84

when a chlorophyll molecule absorbs light, exciting an electron, the chlorophyll molecule

Answer 84

gains potential energy

Question 85

where do replacement electrons for chlorophyll a come from?

Answer 85

water molecules

Question 86

What is the outcome of the flow of protons across the thylakoid membrane into the stroma?

Answer 86

the generation of ATP from the differences in photon concentration

Question 87

why must plants get water for photosynthesis to occur

Answer 87

water replaces electrons used during the “photo” reactions

Question 88

what links the “photo” reactions with the “synthesis” reactions

Answer 88

atp and nadph

Question 89

what is regenerated in the calvin cycle

Answer 89

organic molecule

Question 90

why does feeding sugars to cut flowers help keep them alive longer?

Answer 90

sugar provides an energy source for cellular molecules

Question 91

A plant whose leaves are reddish yellow is NOT absorbing light from which wavelengths of the visible light spectrum?

Answer 91

red and yellow

Question 92

What is the source of the electrons that replace those lost by chlorophyll a in the photosystems?

Answer 92

water

Question 93

Which of the following statements most accurately depicts the relationship between the light reactions and the Calvin cycle in photosynthesis?

Answer 93

The light reactions provide ATP and NADPH to the Calvin cycle and the Calvin cycle returns ADP, NADP+, and a phosphate group to the light reactions.

Question 94

NAD+ vs NADH

Answer 94

NADH carries one additional proton and two additional high-energy electrons

Question 95

outcome of glycolysis?

Answer 95

breakdown of a glucose molecule into two smaller pyruvate molecules

Question 96

glycolysis net worths what

Answer 96

2 atp and 2 nadh per molecules of glucose

Question 97

Which metabolic processes results in the production of ATP in the absence of oxygen?

Answer 97

glycolysis

Question 98

If ATP is being generated in the cytosol, which of the following processes is responsible?

Answer 98

glycolysis

Question 99

Where are the molecules of the mitochondrial electron transport chain located?

Answer 99

within the inner membrane

Question 100

What happens to electrons as they are passed down the photosynthetic electron transport chain from the primary electron acceptor?

Answer 100

they fall to a lower energy state and some energy is released