If it is a MCQ, I cannot find the propositions, I just can explain to you what's the dorsal nerve cord.
The dorsal nerve cord is one of the unique embryonic characteristics of the ganglia next to the dorsal cord. The dorsal nerve cord is a hollow dorsal cord.
It consists of a part of the exfoliated coagulant, forming a hollow tube, compared to other animal species that have solid abdominal tubes.
The dorsal nerve cord later changes in vertebrates to the central nervous system, which consists of the brain and spinal cord. The dorsal nerve cord is found mainly in the vertebrae vertebrates.
A thick grouping of nerves that runs down the back of the embryo.
How would an asthma attack affect oxygen delivery in the body
How do obligate aerobes and obligate anaerobes differ in their interactions with the atmosphere?
An obligate aerobe, by contrast, cannot make ATP in the absence of oxygen, and obligate anaerobes die in the presence of oxygen.
An obligate aerobe is an organism that requires oxygen to grow. Through cellular respiration, these organisms use oxygen to metabolise substances, like sugars or fats, to obtain energy. In this type of respiration, oxygen serves as the terminal electron acceptor for the electron transport chain.
An Obligate anaerobes are poisoned by oxygen, so they gather at the bottom of the tube where the oxygen concentration is lowest.
An obligate aerobe, by contrast, cannot make ATP in the absence of oxygen, and obligate anaerobes die in the presence of oxygen.
Deferentiat between filter feeders and fluid feeders
These 2 creatures are quite different. One of the differences is that filter feeders filter the water for food particles, while the fluid feeders feed on liquid like blood. Filter feeders are a sub-group of suspension feeding animals that feed by straining suspended matter and food particles from water, typically by passing the water over a specialized filtering structure. Fluid feeders are organisms that feed on the fluid of other organisms. It can refer to: Hematophagy, feeding on blood. Nectarivore, feeding on nectar. Plant sap feeders.
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Classify the characteristics by whether they describe plants only, fungi only, or both plants and fungi.
Characteristics
-may produce seeds
-are heterotrophic
-may have aseptate hyphae
-can absorb nutrients from soil
-may have rhizomes
-can photosynthesize
-have cell walls
Answer:
may produce seeds - plants only
are heterotrophic - fungi only
may have aseptate hyphae - fungi only
can absorb nutrients from soil - plants only
may have rhizomes - plants only
can photosynthesize - plants only
have cell walls - both plants and fungi
Explanation:
Fungi and plants are two distinct groups of eukaryotic organisms. They possess different structures and characteristics and also have one or few in common. The characteristics in the question will be used to explain which organisms between fungi and plants it belongs to:
- Some plants reproduce sexually by fusion of their gametes. Production of seeds is a unique process that only plants have. Plants are the only organisms that propagate via seeds. Fungi do not produce seeds.
- Heterotrophs are organisms that are incapable of producing their own food, hence, they rely on other organisms for food source. This is a characteristics of fungi only because plants are autotophic organisms and hence can synthesize their own food via the process of photosynthesis.
- Hyphae is a long filamentous structure that collectively forms the mycelium in Fungi. It can be septate (have walls) or aseptate (without walls). It is unique to only Fungi species and plants do not possess this feature.
- Plants absorb water and nutrients from the soil via their roots. Fungi cannot absorb directly from the soil. They absorb from Plant and animal matter around them.
- Rhizomes are horizontal underground stems that forms roots and shoots from its node. It is a feature of some plants like onions, ginger etc. Fungi do not have or produce Rhizomes.
- Photosynthesis is the process whereby food is synthesized using energy from the sun. It is unique to autotrophic organisms like plants, that possess pigments like Chlorophyll which they use to trap light energy from the sun. Fungi is an heterotroph and hence cannot photosynthesize.
- Fungi and plants both have cell walls in their cells. The cell walls of fungi and plants are made up of chitin and cellulose respectively. Hence, cell wall is a feature of both organisms.
Select the correct answer from each drop-down menu.
Offspring inherit genes from their parents, and these genes determine their physical characteristics.
According to the law of (blank), a heterozygous organism has about a (blank) chance of producing gametes with the recessive allele.
a:
1. segregation
2. genetics
3. assortment
b:
1. 25%
2. 50%
3. 75%
Answer:
Segregation, 50%...
Explanation:
PLATO
Final answer:
In Mendelian genetics, according to the law of segregation, a heterozygous organism has a 50% chance of producing gametes with the recessive allele.
Explanation:
The question relates to Mendelian genetics and the inheritance patterns of alleles. According to the law of segregation, a heterozygous organism (one that has two different alleles for a trait) has a chance of producing gametes with the recessive allele. During gamete formation, alleles for a trait segregate so that each gamete carries only one allele for each gene. This results in a 50% chance of transmitting either allele to the offspring. If an organism is heterozygous for a given trait (Aa), then it has two different alleles: one dominant (A) and one recessive (a). Thus, there is a 50% chance that a gamete produced by a heterozygous organism will contain the recessive allele (a).
Therefore, the correct answers to fill in the blanks would be:
Segregation
50%
How does the age of sea floor sediments change with increasing distance from the ocean ridge? A) their age stays the same B)their age decreases C) their age Varies without a pattern D)their age increases
D) their age increases
Answer:
Option (D)
Explanation:
In a divergent plate motion, the plates move away from one another. As a result of this, the magma comes out to the ocean floor along the mid-oceanic ridge. The new materials are added to the crust along this mid-oceanic ridge. The rocks that are present near the mid-oceanic ridge are the younger rocks as the magma after ejection cools and solidifies. With the continuous eruptions, these rocks get shifted away from this ridge. So with the increasing distance from the mid-oceanic ridge, the age of the seafloor sediments increases.
Hence, the correct answer is option (D).
Looking through his telescope, Galileo observed that Jupiter had a set of moons, much like Earth does. The moons revolved around the planet. This disproved the idea that all objects in space revolved around Earth. This means that A) scientific knowledge is almost always incorrect. B) scientific knowledge began only after the telescope was invented. C) scientific knowledge can be revised if better evidence comes to light. D) scientific knowledge can only be gained by using sophisticated instruments. ITS C NEVERMIND DONT ANSWER
the answer is c scientific knowledge can be revised
c) Scientific knowledge can be revised.
As part of an experiment, a student burns propane (C3H8) to produce carbon dioxide (CO2) and water (H2O). She remembers that she must follow the Law of Conservation of Matter when writing a balance chemical equation. Which of these equations adheres to the Law of Conservation of Matter? A) C3H8 + O2 -> CO2 + H2O B) C3H8 + O2 -> 3CO2 + H2O C) C3H8 + 3O2 -> CO2 + 4H2O D) C3H8 + 5O2 -> 3CO2 + 4H2O
Answer:
The correct answer would be D) C₃H₈ + 5O₂ -> 3CO₂ + 4H₂O
Law of conservation of mass states that matter can neither be created nor it can be destroyed. It can change from one form to another however, the total mass of the matter remains conserved
In a chemical equation it can be infer as the mass of the reactants remains equal to the mass of the products.
Hence, the total number of elements used in a chemical reaction must remain conserve during the chemical reaction.
In the reaction C₃H₈ + 5O₂ -> 3CO₂ + 4H₂O
3 carbon atoms are there in the reactant as well as product.
Similarly, 8 atoms of hydrogen and 10 atoms of the oxygen remain the same in reactant as well as product.
The answer is D) C3H8 + 5O2 -> 3CO2 + 4H2O
Just had this question
What is the oldest form of genetic engineering? Selective breeding hybridization cloning recombinant DNA
The correct answer is option Selective breeding.
The selective breeding is a technique, in which two different individuals having a specific desired phenotype is present. Both the individuals have different desired phenotype. They are crossed together, so that a progeny having both type of phenotype or trait is obtained.
Hybridization, cloning and recombinant DNA technology emerged years after the introduction of selective breeding. These are very new tools used in DNA technology, whereas, selective breeding was from ancient times.
Answer:
Selective Breeding
Explanation:
Hope this helps :D
Who is women pls fast solve that can u help someone
Sand and gravel are important marine resources. They are used to make concrete and for other industrial purposes. As a marine biologist, what information would you need to evaluate the impact of mining these resources?
A. How much was being mined, and how the activity would impact the water temperature
B. How ecologically sensitive the area is, and how the activity would impact the benthic organisms
C. What products are made with the resources, and how the activity would impact the pH of the water
D. What commercial value the resources had, and how the activity would impact the offshore currents
Option B is correct.
B. How ecologically sensitive the area is, and how the activity would impact the benthic organisms.
Explanation:Being the marine biologist It will be my first concern to see and bind its impact on marine life and benthic organisms. It will find that how ecologically sensitive this area is and how it is going to affect the activity of marine life. Because marine life is my priority being the marine biologist.
Assessing ecological sensitivity and impacts on benthic organisms are crucial for evaluating sand and gravel mining's environmental impact.
As a marine biologist assessing the impact of sand and gravel mining on marine ecosystems, the following information would be crucial:
B. How ecologically sensitive the area is, and how the activity would impact the benthic organisms
Understanding the ecological sensitivity of the mining area is essential for evaluating the potential environmental impact. Areas with high biodiversity, sensitive habitats like coral reefs or seagrass beds, or protected marine reserves require special consideration. Assessing the potential impact on benthic organisms, such as marine life living on or near the ocean floor, is critical as they are directly affected by mining activities. Disturbance to benthic habitats can lead to habitat loss, alteration of sediment composition, disruption of feeding and breeding grounds, and loss of biodiversity.
Additionally, evaluating the long-term effects of mining on benthic communities and ecosystem health is necessary to develop sustainable management practices and mitigate negative impacts. Monitoring changes in benthic species composition, abundance, and overall ecosystem health is essential for informed decision-making and conservation efforts.
(5 points) Let’s take it one step further! Use the data chart below to answer the following question.
Light intensity (%) O2 produced (mL/h)
30 8.8
40 26.1
50 31.3
60 31.3
The data above was collected during an Elodea observation. Notice what happens to the oxygen produced at light intensities of 50% or higher. Everything has its limits, even chemical reactions! Think about a powerful race car. If you give it more fuel and better tires, it can go very fast. But, eventually, its speed will top out due to the limitations of the motor. Even if you kept adding fuel and tires, it couldn’t go any faster. Explain how the data in this experiment suggests there is a maximum photosynthetic rate. Be sure to discuss the reactants and products in your answer.
Answer:
Photosynthesis is the process by which green plants synthesize their food (sugar) from carbon dioxide and water in the presence of sunlight and chlorophyll. Oxygen is released as the byproduct of this process.
In the given experiment, the amount of oxygen produced is taken as the measure of photosynthetic rate.
The rate of photosynthesis is directly proportional to the intensity of light. However, after reaching the maximum rate increase in light intensity also fails to increase it further.
It might be because of the limitations of other factors.
In addition, further increase in light intensity can damage the photo-systems which will results in sharp decrease in photosynthetic rate.
Observations also show that even after increasing the light intensity from 50% to 60%, the oxygen production remains the same i.e. 31.3 ml/h.
The data from the experiment shows that as light intensity increases, oxygen production also increases up to a point, suggesting a maximum photosynthetic rate. Above 50% light intensity, oxygen production plateaus indicating a limiting factor in the photosynthesis process which could be related to carbon dioxide availability or the plant's photosynthetic efficiency.
Explanation:The data from the Elodea observation experiment, where light intensity and oxygen production were measured, suggests a maximum photosynthetic rate. This concept is similar to the analogy of a race car reaching its maximum speed regardless of added fuel or better tires.
For the biological process of photosynthesis, light intensity acts as 'fuel.' When light hits the chlorophyll in a plant, it energizes an electron which initiates the photosynthesis process where solar energy is converted into chemical energy that cells can use. The reactants, or 'inputs' for this process, include light and carbon dioxide. The products, or 'outputs,' include oxygen and glucose.
Looking at the data chart, the oxygen produced — a product of photosynthesis — increases as the light intensity increases up until 50%. However, above 50% light intensity, the oxygen production plateaus at 31.3 mL/h, suggesting the photosynthetic rate has reached a maximum. Similar to the race car analogy, additional light 'fuel' does not increase the oxygen 'speed,' indicating that there is a limiting factor in the photosynthesis process, potentially the amount of carbon dioxide available or the efficiency of the plant's photosynthetic system.
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In which situation would artificial insemination most likely be used over other forms of treatment?
A.
There is a blockage in the fallopian tubes.
B.
A woman's ovaries do not release any eggs.
C.
A man's testicles have not properly descended, lowering sperm count.
D.
The mucus that helps the sperm travel to the uterus is too thick.
Answer: D. the mucus that helps the sperm travel to the uterus is too thick.
Artificial insemination is the technique in which the sperms are introduced into the female's cervix or uterine cavity. This results in pregnancy through in vivo fertilization. Women cervix is blocked by thick mucus which block the entry of sperms. Therefore, artificial insemination would be better in such situation than other forms of treatment.
Answer:
D
Explanation:
What cause the movement of wind and water to the right or left on earth?
The change in gravitational forces causes currents to move towards right. The deflection of winds to the left causes the currents to move in the opposite direction.
Which phase of the cell cycle is typically the longest phase
interphase is the correct answer
In an uncharged atom, the number of protons and ___________ must be equal. a. ions b. neutrons c. electrons d. particles e. neurons
The main function of the cell membrane is to control what enters and exits the cell.
One of its jobs is to control what enters and exits the cell and thereby to protect the cell. ... Sometimes carbohydrates (sugars) are attached to cell membrane phospholipids and to cell membrane proteins. A selectively permeable (sometimes called semi-permeable) membrane allows some molecules across but not others.
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The cell membrane, or plasma membrane, is critical in cellular function as it controls what enters and exits the cell. It separates the cell's interior from its environment and is semipermeable, permitting certain molecules or ions to pass through.
Explanation:The cell membrane, also known as the plasma membrane, plays a critical role in the functioning of cells. It's primarily responsible for controlling what enters and exits the cell. This flexible barrier separates the interior of the cell from its environment, letting only certain substances pass through. Also, the cell membrane is semipermeable, meaning it allows certain molecules or ions to pass through it by means of active or passive transport.
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where is the stem cell of an embryo are the instructions located for how to build a heart
No pain is felt, and for one reason or another, the embryonic stem cells would not have been allowed to produce a new life. The benefits of embryonic stem cell research are potentially great. Embryonic stem cells have the capability to differentiate to any tissue in the body, and potentially could eventually be instrumental in cultured organ replacement or gene therapy.
Answer:
Deoxyribonucleic acid
Explanation:
A P E X
4 a muscle cramp is a sudden, painful contraction of a muscle, during which movement is difficult. What is happening at the cellular level during a muscle cramp?
In the case of the muscular cramps, the muscle contraction starts with the generation of the action potentials from the brain. The action potential causes the release of the calcium ions movement out of the sarcoplasmic reticulum (storage site of calcium). The calcium released in this process causes the contraction of the myofibrils with the help of the ATP molecules. Meanwhile, the calcium is pumped back to the sarcoplasmic reticulum through the fast calcium pumps.
The contraction of one muscle cell generate the action potential in neighboring muscle cells. When the generation of the action potential is stopped, the sarcoplasmic reticulum relaxes as well as the muscle is relaxed. The fast calcium pump is powered by a sodium gradient, and the calcium influx is a result of fast outflux of the sodium ions from the sarcoplasmic reticulum.
In case, the sodium ion is less, the calcium pumps cannot be powered, the calcium ion would remain in myofibril, as a result, the muscle would be contracted for a longer time and this result in cramps. The muscle in this case, would be relaxed by the ATP instead of sodium gradient. So, it can be concluded that the muscle cramps are caused when the muscles are not able to relax properly.
An ionic bond is most likely to form between:
a)
a negatively and a positively charged ion.
c)
two uncharged atoms.
b)
two positively charged ions.
d)
two negatively charged ions.
The answer to your question is,
A) A negatively and positively charged ion.
-Mabel <3
An ionic bond is most likely to form between a negatively and a positively charged ion. This involves the transfer of electrons, resulting in opposite charges that attract each other. Option a is correct.
This type of chemical bond involves the transfer of electrons, leading to the formation of ions. Specifically, a cation (positively charged ion) and an anion (negatively charged ion) are attracted to each other due to their opposite charges, resulting in an ionic bond. For example, sodium (Na) loses an electron to become Na+, and chlorine (Cl) gains an electron to become Cl-. These ions are then attracted to each other to form NaCl, or table salt.All the organelles within a cell are interrelated and ________.
Will give brainliest! PLEASE ANSWER ASAP!
Not working for the body to work right in a way of matter
Answer:
Depended on one another
Solutionssolution what it is made ofa water and saltb water and sugarc water and hcld water and naoh which of these substances would be a poor conductor of electricity?a) b) c) d)
Which system of your body would activated if you were surprised
Study the graphic below of an enzymatic reaction. Then match the terms below that correspond to the information within the graphic.
Image attached
Thank you
The enzymes refer to the catalysts that enhance the rate of a chemical reaction without themselves going through any kind of permanent chemical modification. They neither appear as the reaction products nor are used up in the reaction.
During the initial phase of a chemical reaction incorporating enzymes, the substrates combine themselves to the enzyme's active site. Once the suitable substrates combine with an enzyme to produce an enzyme-substrate complex, a chemical reaction between the substrates can take place.
Here's how I think they correspond:
Term: | Match in the graphic:
The process of the enzymatic reaction. | The entire sequence of steps shown in the diagram, from the binding of the reactants (glucose-6-phosphate and ATP) to the release of the products (glucose-6-phospate and ADP).
The substrates for the enzymatic reaction. | Glucose-6-phosphate and ATP.
The name of the enzyme. | Hexokinase.
Binding of the reactants & the occurrence of induced fit. | The interaction between glucose-6-phosphate and ATP with the active site of hexokinase, shown by the dotted lines and the change in the enzyme's shape.
Location on the enzyme where the reaction occurs. | The active site of hexokinase, represented by the pocket where the reactants bind.
Therefore:
Match terms 1, 2, 3, and 5 to the corresponding elements in the graphic as described above.Term 4 ("Occurrence of induced fit") is implied but not explicitly labeled in the graphic.Which of the following describes the function of proteins in our body?
Both a and c i think
Proteins are crucial biomolecules in our body and perform a vast array of functions. They act as enzymes, hormones, transport proteins and also help in defending the body against foreign particles as antibodies. Moreover, they contribute to the maintenance of the body's acid-base balance, fluid-electrolyte balance, and can also serve as a metabolic fuel source.
Explanation:Proteins, which are the final products of genes and composed of amino acids, play a variety of crucial roles within the body. These roles include acting as enzymes to catalyze chemical reactions, functioning as hormones to regulate bodily functions, and serving as transport proteins, like hemoglobin, which carries oxygen to various organs.
Proteins furthermore contribute to the structure of all bodily tissues, from muscle to brain cells. The shape of a protein is intricate to its function and can be impaired in certain diseased states due to changes at the genetic level or direct impacts on the protein itself.
Proteins can also defend the body against foreign particles as antibodies and assist in maintaining acid-base and fluid-electrolyte balance in the body. Lastly, in addition to their other vital functions, proteins can serve as a metabolic fuel source, as excess proteins may be converted into glucose or triglycerides for energy.
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Which of the following is not true of negative feedback loops?
A. Negative feedback loops maintain homeostasis.
B. Negative feedback loops are temporary.
C. There are many more instances of negative feedback loops in the human body than positive feedback loops.
D.In a negative feedback loop, the response to the signal or stimulus decreases the original signal or stimulus.
The statement 'Negative feedback loops are temporary' is not true. Negative feedback loops are continuous processes that maintain stability or homeostasis in an organism by adjusting to changes and returning the system back to its optimal state.
Explanation:The option 'B. Negative feedback loops are temporary' is not true of negative feedback loops. Negative feedback loops help maintain homeostasis in an organism by ensuring that optimal conditions are maintained. They act as a self-regulating mechanism, where any deviation from the set point (ideal conditions) is corrected. For example, consider the body's temperature regulation. If your body's temperature deviates from the 37 degrees Celsius norm, mechanisms will kick into gear to either cool or heat your body back to the optimal temperature.
These processes are not temporary, but are continuous, adjusting the conditions as and when needed. Furthermore, there are indeed more instances of negative feedback loops in the human body than positive ones, given these loops work to keep a stable internal environment. Lastly, in negative feedback loops, the response to the signal or stimulus indeed decreases the original signal or stimulus, bringing the system back to its optimal state.
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The correct answer is B. The statement that is not true of negative feedback loops is that Negative feedback loops are temporary.
Negative feedback loops are a fundamental concept in physiology and are crucial for maintaining homeostasis within an organism. Here's a breakdown of each option:
A. Negative feedback loops maintain homeostasis.
This statement is true. Negative feedback loops are designed to counteract changes in the body's internal environment, thereby stabilizing physiological variables and maintaining homeostasis. For example, when body temperature rises, a negative feedback loop initiates sweating to cool the body down.
B. Negative feedback loops are temporary.
This statement is not true. Negative feedback loops are not temporary; they are continuously active to maintain a stable internal environment. They may be activated or deactivated as needed, but they are not temporary in the sense that they only occur once or for a limited time.
C. There are many more instances of negative feedback loops in the human body than positive feedback loops.
This statement is true. Negative feedback loops are indeed more common in the human body than positive feedback loops. Negative feedback loops are used to regulate most physiological parameters, such as body temperature, blood glucose levels, and blood pressure, among others.
D. In a negative feedback loop, the response to the signal or stimulus decreases the original signal or stimulus.
This statement is true. The defining characteristic of a negative feedback loop is that the response it generates reduces or opposes the initial stimulus. This is in contrast to positive feedback loops, where the response amplifies the initial stimulus.
Therefore, the statement that is not true of negative feedback loops is that they are temporary. Negative feedback loops are an ongoing mechanism for regulating the body's functions and maintaining stability.
The tails that make up the cell membrane are hydrophilic.
true or false
The correct answer is: [B]: " False " .
___________________________________________________
To the contrary,
→ the fatty acid tails of the phospholipids are hydrophobic .
___________________________________________________
Stars are very hot but not very bright are called
Most stars in the solar neighborhood are fainter and cooler than the Sun. There are also a handful of stars which are red and very bright (called red supergiants) and a few stars that are hot, but very faint (called white dwarfs).
Stars that are very hot but not very bright are called white dwarfs.
Explanation:The stars that are very hot but not very bright are called white dwarfs.
White dwarfs are stars at the lower-left corner of the Hertzsprung-Russell (H-R) diagram. They have high surface temperatures, but their overall brightness is low because they have a very small total surface area. This means that each square meter on a white dwarf puts out a lot of energy, making them hot, but their small size results in low overall brightness.
White dwarfs are formed during the late stages of stellar evolution when a star with a low or medium mass, like our Sun, exhausts its nuclear fuel and collapses under its own gravitational pull.
Which sequence best represents the different levels of organization of multicellular organisms from least complex to most complex?
A. cell ⇒ organ ⇒ tissue ⇒ organ system ⇒ organism
B. cell ⇒ tissue ⇒ organ ⇒ organ system ⇒ organism
C. organism ⇒ organ system ⇒ organ ⇒ tissue ⇒ cell
D. organism ⇒ organ ⇒ organ system ⇒ tissue ⇒ cell
A multicellular organism is an organism that consists of more than one cell, in contrast to unicellular organism. The option (B) is correct. cell ⇒ tissue ⇒ organ ⇒ organ system ⇒ organism.
What are multicellular organisms?Multicellular organisms are those composed by multiple cells. They are classified in 13 major groups of terrestrial living beings, including animals, plants, fungi, ciliates, algae, and foraminifera. The number of cells per organism range from some tens to up to several million.
Moreover, animals, plants, and fungi are multicellular organisms. Multicellular organisms are much bigger in size and are very complex and intricate in their composition along with structure. Human beings, animals, plants, insects are examples of multicellular organisms.
Hence, a tissue, organ or organism that is made up of many cells is said to be multicellular. Animals, plants, and fungi are multicellular organisms and often, there is specialization of different cells for various functions.
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What would happen if the concentration pg H+ ions were higher inside the mitochondria than outside the mitochondria when the channel opened
In mitochondria, the metabolism of sugars is completed: the pyruvate is imported ... This allows 15 times more ATP to be made than that produced by glycolysis alone. ... (A) Most of the energy would be released as heat if hydrogen were simply burned. ... and the outside positive (as a result of the net outflow of positive ions).
Answer:
The energy of proton transfer down the concentration gradient would be lost as heat and ATPs would not be formed by oxidative phosphorylation.
Explanation:
Oxidation of NADH and FADH2 via electron transport chain generates a proton motive force with intermembrane space being positive due to a higher concentration of protons as compared to the mitochondrial matrix.
Since the inner mitochondrial membrane is impermeable to protons, protons can be transported via channel proteins only. Movement of the protons down the concentration gradient via Fo proton channels drives the ATP synthesis on the matrix side.
According to the questions, the inside of the mitochondria has more protons. This would drive the movement of protons from the matrix to the intermembrane space via proton channels. Since the ATP synthase enzyme is present on the matrix side, the movement of protons towards the intermembrane space would not drive ATP synthesis and the energy will be lost as heat.