Why do you think having such an extensive membranous area is beneficial when performing photosynthesis?

Answers

Answer 1

Answer:

Increasing the membrane area also increases the number of ATP and NADPH generating sites

Explanation:

Photosynthesis occurs in the chloroplast, more precisely in the membranes of the thylakoids that form stacks of disks called grana. A mature chloroplast may have 20 to 60 grana. In these membranes, there are photosystems, which are structural units of pigment-protein complexes that convert light energy from the sun into chemical energy stored in ATP and NADPH. A thylakoid may contain thousands of photosystems. In consequence, increasing the membrane area also increases the number of photosystems required for the synthesis of ATP and NADPH.


Related Questions



Blood type is a genetically determined trait. Two siblings donate blood and find out their blood types. The brother is Type A and the sister is Type
B. Which of the following best explains why the siblings have different blood types?
A. The brother has a different number of blood type genes than his sister.
B. The brother's blood type gene is on a different chromosome than his sister's.
c. The brother has different alleles for the blood type gene than his sister does. D. The brother has a different number of chromosomes than his sisted does

Answers

Answer:

C

Explanation:

The brother has different alleles for the blood type gene than his sister does.  Blood type is inherited from parents like many other traits that can be displayed on a punnet square.  Depending on what the parents blood type alleles were, the brother and sister could have different blood types.  

A different number of chromosomes doesn't lead to different blood types, so D is wrong.  And A is incorrect because the number genes also does not affect blood type.  And I think the blood type genes are on the same chromosome, so B is wrong.  C is correct because blood type is inherited by alleles, and different alleles can cause different traits, such as blood types.  

Adenosine triphosphate, or ATP, is primarily used as
in living organisms.
O A.
a blood coagulant
O B.
a source of energy
O C.
a reproductive enzyme
O D.
a muscle relaxing hormone

Answers

Answer:

A source of energy

Explanation:

2 points
A weather map is shown.
Weather Map
70s
90s
705
M
100s
80s
905
- 70s
608
80s
90s
90s
90s
1008
90s
1105
100s
100s
Cold Front
Warm Front
um Stationary Front
What region of the United States is experiencing the hottest weather?
(SC.6.E.7.3)
Northeast
Southeast
Southwest
Northwest

Answers

Answer:

Northwest

Explanation:

Answer:

SOuthwest

Explanation:

Why might someone who is on a diet and eating very few molecules not lose weight?

Answers

Yet as we gain weight our bodies become less sensitive to leptin, and it becomes harder and harder to slim down. In other words, weight gain begets more weight gain. In an experiment using mice that became obese on a high-fat diet, an international team found obesity increases the activity of an enzyme called matrix metalloproteinase-2, or MMP-2. By using a technique called western blot analysis—separating and identifying all the proteins in a tissue sample—the authors found MMP-2 cleaves off a portion of the leptin receptor in the hypothalamus, impairing the hormone’s signaling and its ability to suppress appetite.

(Beryllium)
Protons:
Neutrons:
Electrons:
Atomic #:
Atomic mass:
Charge:
Type of atom:
(cation, anion, or neutral)

Answers

Answer:

Hope my answer helps you. open the pic

During cytokinesis eukaryotic cells divide causing the following: (check the two that
apply) *will give brainliest*

Answers

Answer:

I believe it would be A and C

Explanation:

If Band 8 in Sample F represents the mutated gene that causes baldness, which other DNA samples may also
have the baldness gene?

Answers

B and E.................:)

You received 23 chromosomes from each
parent.

true
false

Answers

Answer:

true

Explanation:

brainliest plz

Animal use chlorophyll to produce glucose.
True
False

Answers

false
explanation plants do

Animals use chlorophyll to produce glucose. This is a false statement. Hence, the correct answer is second one . Animals are not autotrophs but heterotrophs.

What is photosynthesis?

Photosynthesis is a process in which oxygen and glucose are produced from carbon dioxide and water with the help of sunlight in green plants. This reaction is carried out by the green plant because it consists of chloroplasts.

The chloroplast is the organelle that has chlorophyll pigment, and this pigment is responsible for the photosynthesis process. Due to this, plants are called producers. Animals depend upon the plant for food and are called heterotrophs. Animals cannot do photosynthesis.

In different ecosystems, different producers are present, such as in aquatic ecosystems, where algae and seaweeds perform this function. In terrestrial ecosystems, plants perform this photosynthesis. Consumers feed them depending on the producers, and after both the consumer and the producer die, both are decomposed by decomposers.

Hence, animals use chlorophyll to produce glucose; this is the false statement.

To learn more about photosynthesis, refer here:

https://brainly.com/question/1388366

#SPJ2

if an organism is a prokaryote, unicellular and can survive in harsh conditions, in which doiman would it be classified

Answers

Answer:

The correct answer is - Archaea.

Explanation:

Archaea is one of the three domains of life other than bacteria and eukarya. Archaea are prokaryotic organisms that are unicellular and present in very extreme conditions like salt environments or extreme heat.

Archaea used to be placed with bacteria but due to some closeness with the characteristic of eukarya as well as bacteria, it is placed as a separate domain. It lacks nuclei and has a cell wall in its cell.

SOMEONE PLEASE HELP ME

You have a sample that has a half-life of 17 years. 1/8 of the sample is the parent isotope.

How old is the sample?

How much of the daughter isotope is left?

Answers

ciasiende gratoenle  eniulgdod esto mal no se por que estoy escribiendo haci si ago tonet

Individuals in a species have genetic variation that can be passed on to their offspring
(Use evidence and examples to support this claim)

Answers

Answer: Genetic variation within a species can result from a few different sources. Mutations, the changes in the sequences of genes in DNA, are one source of genetic variation. ... As a result, the tree-colored moths are more likely to survive, reproduce, and pass on their genes

Explanation:

Please help!
Anyone know what this is?

Answers

Answer:

ummmm d?

Explanation:

Answer:

i think its A

Explanation:

2) what is an example of solute?

a) acetone
b) egg whites
c)water
d)sugar

Answers

Answer:

acetone

Explanation:

Sugar is an example of a solute

PLEASEEEEEEEEEEEEEEEE HELPPPPPPPPP

1. Describe the possible fates of blood lactate? (4 mrks)
2. Does gender affect the levels of lactate? If so, Why? (4mrks)

Answers

Answer:

1)When the oxygen level is low, carbohydrates break down for energy and produce lactic acid. Lactic acid levels rise with strenuous exercise or other conditions - such as heart failure, severe infection (sepsis), or shock - which reduces the flow of blood and oxygen throughout the body.

2) no gender differences in resting or peak blood lactate concentrations, nor in the rate of blood lactate removal of young adult men and women with similar aerobic fitness level expressed as ml.kg FFW1

Explanation:

..

Which pair of nitrogenous bases will form a bond in a DNA molecule?

C and A
A and T
G and T
T and C

Answers

The correct answer is A and T

Answer:

A and T

Explanation:

Hope this helps you!!!!

Plants take in carbon dioxide and release gas​

Answers

Answer:

yes, but by gas you mean oxygen right?

Explanation:

Answer: During photosynthesis, plants take in carbon dioxide (CO2) and water (H2O) from the air and soil. ... This transforms the water into oxygen and the carbon dioxide into glucose. The plant then releases the oxygen back into the air, and stores energy within the glucose molecules.

Explanation:

Aye yo anyone know this question

Answers

The answer is D I think

Answer:

a

Explanation:

someone commented it.

Please can anyone help me ill make you the brainiest, I need help with these questions!
1.How many moles of oxygen react with 10.5 moles of methane?
2.How many moles of methane react with 10.7 moles of oxygen?
3.How many moles of carbon dioxide are produced from 80 moles of methane?
4.How many moles of water are produced from 800 moles of methane?
5.How many grams of oxygen will react with 85 grams of methane?

Answers

Answer:

the moles of oxygen react only 1.05 moles

Explanation:

because the formula of methane is CH4 so it has 10 molecule so 10.5 ÷10 =1.05

The illustration below shows two waves. Each wave travels in the same amount of time.

Wave A



Wave B

Which of the following statements best describes the relationship between wavelength and frequency?
A: As wavelength increases, frequency increases
B: As wavelength increases, frequency decreases
C: As wavelength decreases, frequency decreases
D: There is no relationship between wavelength and frequency

Answers

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PLEASE HELP
Which word describes the speed at which the "global
conveyor belt" moves?

Answers

Answer:

The conveyor belt moves at much slower speeds (a few centimeters per second) than wind-driven or tidal currents (tens to hundreds of centimeters per second). It is estimated that any given cubic meter of water takes about 1,000 years to complete the journey along the global conveyor belt

Which hormone signals body cells to take in glucose
and reduces the level of sugar in the blood?
A) Testosterone
B) Insulin
C) Cortisol
D) Glucagon

Answers

Answer:

B)

Explanation: Insulin is what keeps your blood sugar lower and sends signal when it needs glucose

The answer to this question is, B) Insulin

1c) The student finds more daisy plants in the open field than under the
tree. Explain this correlation. *

Answers

Explanation:

This happened because in an open field the daisy's have more sun to do photosynthesis so yeah

PLS HELP ME THANKS :) write a short paragraph evaluating the different methods of seed dispersal.

Answers

Explanation:

There are five main modes of seed dispersal: gravity, wind, ballistic, water, and by animals. Some plants are serotinous and only disperse their seeds in response to an environmental stimulus. Because plants cannot walk around and take their seeds to other places, they have developed other methods to disperse (move) their seeds. Dandelion seeds float away in the wind

8. Outline the process of metaphase, inclusive of the role of microtubules and the centromere.

Answers

Answer:

Chromosomes are positioned in the middle of the cell during metaphase.  

Explanation:

During metaphase, the centrosomes are at opposite poles or sides of the cell.  The spindle apparatus is formed and the nuclear membrane has dissolved.  The spindle fibers, also known as microtubules have lined up the chromosomes along the equatorial plate in the middle of the cell so each sister chromatid faces opposite directions.  The sister chromatids are still connected by the centromere, and this is the last time they are connected during this division.  The centromere is also where kinetochores assemble, and kinetochores are the sites of attachment for microtubules to pull the sister chromatids apart.  They are important for the cell to be able to divide.  

what is cellular respiration also called

Answers

Answer:

Krebs cycle, tricarboxylic acid cycle.

Explanation:

Cellular respiration is what cells do to break up sugars to get energy they can use. ... Usually, this process uses oxygen, and is called aerobic respiration. It has four stages known as glycolysis, Link reaction, the Krebs cycle, and the electron transport chain.

Cellular respiration is a set of metabolic reactions and processes that take place in the cells of organisms to convert chemical energy from oxygen molecules[1] or nutrients into adenosine triphosphate (ATP), and then release waste products.[2] The reactions involved in respiration are catabolic reactions, which break large molecules into smaller ones, releasing energy because weak high-energy bonds, in particular in molecular oxygen,[3] are replaced by stronger bonds in the products. Respiration is one of the key ways a cell releases chemical energy to fuel cellular activity. The overall reaction occurs in a series of biochemical steps, some of which are redox reactions. Although cellular respiration is technically a combustion reaction, it clearly does not resemble one when it occurs in a living cell because of the slow, controlled release of energy from the series of reactions.

Nutrients that are commonly used by animal and plant cells in respiration include sugar, amino acids and fatty acids, and the most common oxidizing agent providing most of the chemical energy is molecular oxygen (O2).[1] The chemical energy stored in ATP (the bond of its third phosphate group to the rest of the molecule can be broken allowing more stable products to form, thereby releasing energy for use by the cell) can then be used to drive processes requiring energy, including biosynthesis, locomotion or transport of molecules across cell membranes.

Answer:

Alternative Titles: cell respiration, tissue respiration. Discover how cellular respiration transforms your food into energy usable by your cells. Cellular respiration releases stored energy in glucose molecules and converts it into a form of energy that can be used by cells.

Explanation:

HELPPPP

Why is it important to have range of tools that can measure all parts of the electromagnetic spectrum



This tiny slice of the universe, speckled with galaxies near and far, tells the story of galaxy evolution over cosmic time Among the 10,000 or so galaxies
pictured here are newborns, adolescents, adults and retirees Like looking through a vast collection of family photos, astronomers are poring over this
comprehensive image to see how galaxies grew up, matured, and aged
This portrait of our universe's history is called the Hubble Ultra Deep Field (or HUDF). It is a minuscule patch of sky first targeted by the Hubble Space
Telescope in 2002 and revisited over and over again since then. This version of the HUDF is extra special though It combines observations of the field
taken with Hubble's Advanced Camera for Surveys and the Wide Field Camera 3 from 2002 to 2012, providing one of the farthest views into the universe
we've ever seen Plus, it includes light not just from the visible part of the spectrum but from the invisible) infrared and ultraviolet ranges, too, giving us
different details of the story of how galaxies came to be
Infrared light lets us see the universe's youngest galaxies. These galaxies lie far far away from us, and as their light travels across the universe, it gets
stretched by the expansion of space Wavelengths of visible light grow longer becoming infrared light by the time it reaches us Combining Hubble's
observations of the HUDF in visible and infrared light a team of astronomers led by Garth Illingworth of the University of California identified more than
5,500 galaxies in a central portion of the field some so faint that they are just one ten-billionth the brightness of what the human eye can see Another
team headed by Richard Ellis of the California Institute of Technology (Caltech) used Hubble's infrared observations to find galaxies more than 13 billion
light-years away, when the universe was only about 400 million years old - or about three percent of its present age
Alternatively, to understand slightly older growing galaxies that are not so far away, observing in ultraviolet light is best The hottest and youngest stars
give off huge amounts of ultraviolet light making them easy to spot at those wavelengths of light Most recently, a team of astronomers led by Harry
Teplitz of Caltech used the ultraviolet-sensing abilities of Hubble's Wide Field Camera 3 to add the ultraviolet piece to this view of the HUDF With this
part of the galaxy evolution picture in hand, astronomers are investigating how galaxies grew through bursts of star formation and exactly where when
and how many stars formed over time
Because our atmosphere blocks or absorbs most infrared and ultraviolet light that reaches Earth only a telescope in space, like Hubble, can provide
such insights into the history of galaxies Without both infrared and ultraviolet light, the tale is incomplete.

Answers

Answer:

the inly question i understood ::::: Why is it important to have range of tools that can measure all parts of the electromagnetic spectrum

ans

Because the electromagnetic spectrum comprises different types of electromagnetic radiation (radio waves, microwaves, infrared, optical, ultraviolet, X-rays, and gamma-rays), all of which have different wavelengths and require different tools to measure them.

true or false passive transport moves molecules from an area of high concentration to low concentration

Answers

Answer:

true

Explanation:

Hope this helps

Flase

Diffusion moves molecules from an area of high concentration to low concentration

Passive transport Is the Movemeny of substances across a cell membrane WITHOUT USING ENERGY
Your welcome
I just learned this and i took notes :)

What is the difference between a plant cell and a animal cell!

I need from you’re pure knowledge not a copy and paste for the internet.

Answers

Plant cellls have a vacuole, cell wall and chloroplast. Animals cells don’t have any of these

Answer:

There are a few differences between plant cells and animal cells, such as size, shape, energy storage, proteins, differentiation, growth, the cell wall and plenty more!

Explanation:

Hope this is helpful. If you need more differences or need me to explain let me know!!

20 points ! multiple choice
4. Which part of the replication process helps reduce the chance for genetic mutation?
a. insertion of RNA primer sequences
b. sealing the gaps between fragments
c. opening multiple origins of replication
d. proofreading new DNA strands

Answers

Answer:

D

Explanation:

Key points:

- Cells have a variety of mechanisms to prevent mutations, or permanent changes in DNA sequence.

- During DNA synthesis, most DNA polymerases "check their work," fixing the majority of mispaired bases in a process called proofreading.

- Immediately after DNA synthesis, any remaining mispaired bases can be detected and replaced in a process called mismatch repair.

- If DNA gets damaged, it can be repaired by various mechanisms, including chemical reversal, excision repair, and double-stranded break repair.

that's from khan academy^

the proofreading new DNA strands cuz ur prevents mistakes
Other Questions
Someone help please 2. Gerald was given the following problem to solve for the length of the ?. He has made a mistake in his work. Identify and describe how he made his mistake. Then, solve the problem correctly. how many moles are in 32.3g of calcium phosphate Help me like right know What Inference can be made about the political standing of women if women from our past did not pave the way? Write a brief explanation of what is meant by the phrase the carbon cycle, the waste products of one system are the stuff of life for another." WRITE Students should have a three-day weekend what is a phrase , what does it mean , what is its purpose? What is the farthest distance the moon gets from Earth? How did the CPS effect Nonpartisan League The answer choices are:Y=-4Y=1X=-4X=1 Buyers are able to buy all they want to buy and sellers are able to sell all they want to sell at Group of answer choices prices at and above the equilibrium price. prices at and below the equilibrium price. prices above and below the equilibrium price, but not at the equilibrium price. the equilibrium price but not above or below the equilibrium price. Which of the following describes methyl jasmonate?a gas emitted by cabbage plants when injureda byproduct of the process of photosynthesisa mycorrhizal fungusan element of the phloem 5 subtracted from 1/3 of 20 5. A Good Day for a Bad DecisionHave you ever noticed that some people always seem to make the right choices? They may be the person who always picks the right pitch to swing at, or the one who always picks the pair of shoes that quickly become a popular fad. On the other hand, some people never seem to make a good decision. They may be the kids who ride a bike down a steep hill and crash into a bush or the ones who step to the edge of a sidewalk in time to get splashed by a car. How do some always seem to be living the good life while others seem doomed to misery? Is this just a matter of luck?While luck probably has something do with it, the better explanation may be that the two groups have differences in the development of their brains. You see, most adult humans use their cerebral cortex to make decisions. The cerebral cortex is the part of the brain in the front of your head that deals with how you perceive the world and respond appropriately. It also helps you control your impulses. This part of the brain is still growing and developing connections well into your adult years. So for young adults and teenagers, the decision-making center of the brain is not completely formed yet.At the same time, the teenage brain is also experiencing growth in another part of the brainthe amygdala (a-mig-dala). This part of the brain is responsible for emotions. Specifically, the amygdala talks to other parts of the brain about events related to rewards and fear.In essence, our emotional brains are having growing spurts and our impulses are out of control at the same time our cerebral cortexes are not finished growing. We simply don't have the tools to control those emotions and impulses. As a result, teenagers feel overly emotional and wishy-washy when it comes to decisions. This development cycle is one reason society doesn't consider children to be adults until after they are 18. Biologically, the teenage brain is not generally ready for adult decisions.So the differences between those who seem to make good decisions and those who seem to make bad ones may be fewer than you think. In fact, if you study the people you think make only good decisions, you will likely find they also make some catastrophically bad ones as well. A person's ability to make a good decision increases with age and experience though we all develop at different rates. While you are young, you may want to take advantage of those around you with bigger cerebral cortexes: adults. Their advice may be just what is needed to counter your amygdala.Which line from the text most clearly explains the main point of the introductory paragraph? (1 point)A.While luck probably has something do with it, the better explanation may be that the two groups have differences in the development of their brainsB.The cerebral cortex is the part of the brain in the front of your head that deals with how you perceive the world and respond appropriately.C.So for young adults and teenagers, the decision-making center of the brain is not completely formed yetD.As a result, teenagers feel overly emotional and wishy-washy when it comes to decisions How would a normal heart sound different than a murmur? How can a condition such as mitral valve regurgitation can lead to a murmur? 9. What are groups of similar cells that work together to perform a specific function called? (1 point)A organ systemB organC cellsD tissues Questions 11-20. Read the following passagefrom Thomas Paine's The Crisis (1776)carefully before you choose your answers.Which mode of persuasion is used in Paine'sline "Tyranny, like hell, is not easily conquered"?Select one:a. Logicb. Personificationc. Anecdoted. Analogy what is the circumference of a circle that that is d=23 ft. How many atoms of oxygen are on the reactants side of this balanced equation?2AgNO3 (aq)+ Cu(s) Cu(NO3)2 (aq)+ 2Ag(s)12236 On what was the kingdom of Ghana's economy based?