Organisms combine simple molecules to form complex molecules by the process of
Answer: Synthesis
Explanation:
The formation of complex molecules from the simpler molecules via reaction is known as synthesis. This takes place either in laboratory conditions. In natural conditions it takes place in the body of the organisms.
The monomers combine to form polymer. The simpler molecules like amino acids combine together to form a complex molecule known as protein.
Synthesis of glucose from carbohydrates and water is an example of formation of complex compounds using simpler compounds.
What of the following statements is true about catalysts?
A. Catalysts slow down the rate of chemical reactions
B. All catalysts are enzymes
C. Catalysts are used up during a chemical reaction
D. Catalysts lower the activation energy of a chemical reaction
The fact that is true about the catalyst is that catalysts lower the activation energy of a chemical reaction that is present in Option D. The catalyst that is present in animals, plants, and other biotic individuals is called a "biocatalyst."
What is the biocatalyst?A catalyst is given to a chemical reaction so that the reaction gets faster and the product is formed from the reactants, but not all reactions need a catalyst. Only the slow reactions need catalysts, but some reactions are naturally fast and don't need them.
In living individuals, the catalysts that are present are called "biocatalysts" because they increase the reaction rate by lowering the activation energy of the substrates. There are lots of enzymes that are required for each and every reaction, such as glycolysis, the Krebs cycle, etc.
Hence ,The fact that is true about the catalyst is that catalysts lower the activation energy of a chemical reaction that is present in Option D.
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Which type of protein, embedded in the plasma membrane, passively allows molecules to move through the membrane?
connecting
carrier
channel
identity and response
The best way to ensure an adequate intake of trace minerals is to:
Final answer:
Ensure adequate intake of trace minerals by eating a balanced diet with varied foods from all groups, focusing on whole grains, seafood, fruits, vegetables, nuts, and legumes.
Explanation:
The best way to ensure an adequate intake of trace minerals is to eat a balanced diet that includes a variety of foods. Good dietary sources such as whole grains, seafood, fruits, vegetables, nuts, and legumes can provide the essential trace minerals needed for your health. Since your body cannot produce these minerals, it is crucial to include them in your diet. It is important to note that deficiencies in trace minerals, even though they are required in small amounts, can have a significant impact on health. For example, iodine deficiency can lead to conditions like goiter. Therefore, consuming foods rich in trace minerals is essential for maintaining overall health.
Eating a variety of foods from all food groups is considered the best strategy. Foods in their whole and unprocessed form generally contain more vitamins and minerals than processed foods. For example, a whole baked potato contains more nutrients compared to processed potato products like French fries. To increase your intake of certain nutrients that many people are often deficient in, such as vitamin D, calcium, iron, and potassium, make sure to review food sources and include these in your daily diet appropriately.
5. Suppose a dominant allele (N) codes for a big nose and a recessive allele (n) codes for a small nose. Imagine that an organism receives a dominant allele from its mom and a dominant allele from its dad. What can be determined about its genotype and phenotype?
A. The organism has a large nose, because it's homozygous.
B. The organism has a large nose, because it's heterozygous.
C. The organism has a small nose, because it's heterozygous.
D. The organism has a small nose, because it's homozygous.
In which of the following ways are tRNA and mRNA different?
a. The mRNA repairs mistakes in the DNA while tRNA repairs proteins.
b. Only tRNA bends into a shape that can carry specific amino acids.
c. Only tRNA can come in contact with the ribosomes in the cytoplasm.
d. The mRNA uses uracil while the tRNA uses thymine in its place.
tRNA and mRNA differ in their functions in protein synthesis, where tRNA carries specific amino acids to the ribosome and mRNA carries the codon sequence that dictates the order of amino acids. It is the 3D structure of tRNA that allows it to perform its role; both tRNA and mRNA use uracil, not thymine.
Explanation:The differences between tRNA (transfer RNA) and mRNA (messenger RNA) are significant in the process of protein synthesis. The correct answer to the question is option b. Only tRNA bends into a specific three-dimensional structure that enables it to carry specific amino acids to the ribosome during protein synthesis. mRNA, on the other hand, is a single-stranded transcript of DNA that carries the genetic code for a protein which is read in sets of three bases called codons, where each codon corresponds to one amino acid.
Moreover, tRNA molecules have anticodons that pair with the codons on the mRNA strand, thus ensuring the insertion of the correct amino acid into the growing polypeptide chain. mRNA does not have amino acid-carrying capacity. Unlike mRNA, tRNA is not involved in carrying the genetic instructions directly from DNA; instead, it plays a crucial role in translating mRNA’s codons into the amino acid sequence of proteins.
It is also important to note that both mRNA and tRNA, like all types of RNA, use uracil instead of thymine. Therefore, the statement in option d, which claims that tRNA uses thymine, is incorrect as thymine is found in DNA, not RNA.
What is fluid that flows between the cells of tissues and organs?
Interstitial fluid is the solution that surrounds the cells within tissues and organs, providing nutrients and waste removal. It is exchanged with blood plasma through capillary walls, while large molecules and cells generally remain within the blood vessels. This fluid is dynamically managed by the lymphatic system to maintain tissue health.
The fluid that flows between the cells of tissues and organs is known as interstitial fluid. This fluid is crucial as it provides nutrients to cells and transports waste away from them. It is a key component of the extracellular fluid, which also includes plasma and transcellular fluid; collectively, they play significant roles in the circulation and support of body tissues.
Capillaries are small blood vessels with walls that are thin enough to allow the exchange of substances between the blood and the interstitial fluid. The composition of interstitial fluid reflects the transfer of materials such as amino acids, sugars, fatty acids, and other solutes. Red blood cells, platelets, and plasma proteins generally do not pass through capillary walls, maintaining a distinct composition between blood plasma and interstitial fluid. White blood cells can enter the interstitial fluid and are important for immune responses. The lymphatic system helps to manage interstitial fluid levels and return excess fluid to the bloodstream.
A new mother asks the nurse administering erythromycin ophthalmic ointment to her newborn why her baby must be subjected to this procedure. what is the best response by the nurse?
The extraordinary accuracy of the dna polymerase iii enzyme lies in its ability to "proofread" newly synthesized dna, a function of the enzyme's ________
When the wall of the stomach fails to protect itself from erosion by gastric juice, the result is?
When the wall of the stomach fails to protect itself from erosion by gastric juice, the result is gastric ulcer.
What is gastric ulcer?
Gastric ulcers are sore-like condition formed due to the effect of acid produced inside the stomach. The acid damages the layer of stomach. Ulcers when treated on time can be cured easily. However, they can become dangerous when not treated on time.
The symptoms of ulcers are severe pain, nausea, vomiting, loss of appetite, acid reflex, etc.
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What accounts for the fact that there are far more substances than are listed on the periodic table?
Why is it difficult for most chemical reaction in living things to occur without enzyme?
For several processes, including digestion and liver function, enzymes are crucial.
What is the role of enzyme in biological chemical reaction?All other catalysts and enzymes have two things in common. First, they speed up chemical processes without being eaten or irreversibly changed by the process.
They also speed up reactions while maintaining the chemical equilibrium between reactants and products.
In human bodies, enzymes work as catalysts to quicken reactions by assisting in the reduction of the activation energy required to initiate a reaction.
The active site is a specific location on each enzyme molecule where the substrate, a different kind of molecule, fits.
Therefore, because without an enzyme, they will not be able to break down food to building proteins.
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Which of the following energy sources is expected to have the highest rate of consumption in 2030?
a. coal
b. natural gas
c. nuclear
d. renewable energy
Answer:
The answer is, A. coal
Explanation:
Answer:
that answer is correct !!
Explanation:
just took test on edg
Dangerously high body temperatures occur sometimes in the elderly due to
Which of the following was not a geological clue used to support the theory of continental drift?
A. Rocks of the same composition and age were found in Brazil and South Africa.
B. Fossils of the reptile Lystrosaurus were found on the landmasses of Africa, India, and Antarctica.
C. Fossils of the plant Glossopteris were found on the landmasses of South America, Africa, India, Antarctica, and Australia.
D. Samples of ocean water tested off the coast of South America contained the same salt content as oceans near Africa. NextReset
The right option is; D. Samples of ocean water tested off the coast of South America contained the same salt content as oceans near Africa.
Continental drift is the theory that all of the earth's continents were once together and formed a large single landmass known as Pangaea but over geologic time, the continents have moved relative to one another, and across the ocean bed. "Samples of ocean water tested off the coast of South America contained the same salt content as oceans near Africa" is not a geological clue used to support the theory of continental drift because the theory only explains why the same species of organisms (plants and animals), rock components and fossil remains are found on different parts of the earth surface that are separated by large distances of sea.
Without drawing the lewis structures, predict which of the species below will have an expanded octet. sf6, xef4, po4 3−
Sulfur hexafluoride (SF6) and Xenon tetrafluoride (XeF4) follow the expanded octet rule due to their sp³ď² hybridization allowing more than eight electrons around the central atom. Phosphate ion (PO4 3−) does not have an expanded octet.
Explanation:The species among SF6, XeF4, and PO4 3− that will have an expanded octet are SF6 and XeF4. The sulfur atom in sulfur hexafluoride, SF6, exhibits sp³ď² hybridization with six bonding pairs of electrons connecting six fluorine atoms to a single sulfur atom. Similarly, the xenon atom in XeF4 also exhibits sp³ď² hybridization. An expanded octet refers to the phenomenon where molecules have more than eight electrons around the central atom in their Lewis structures, which is possible for elements lying in and beyond the third period of the periodic table, namely Sulfur (S) in SF6 and Xenon (Xe) in XeF4. The PO4 3−, however, does not follow the expanded octet rule.
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SF6 and XeF4 will each have an expanded octet because sulfur and xenon have the capacity to have more than eight electrons in their valence shells.
Explanation:Among the species listed (SF6, XeF4, and PO43-), those that will have an expanded octet are SF6 and XeF4. The central atoms in these molecules/phosphate ion are sulfur (S), xenon (Xe), and phosphorus (P), respectively. Sulfur and phosphorus can have expanded octets as they are found in the third period or below in the periodic table, where d-orbitals are available for bonding. Xenon is a noble gas that can also have an expanded octet, as it can accommodate more than eight electrons in its valence shell. Specifically, SF6 has six sulfur-fluorine bonds and a total of 12 electrons around the sulfur central atom. XeF4 has four xenon-fluorine bonds and two lone pairs, making a total of 12 electrons around the xenon central atom. Hence, sulfur in SF6 and xenon in XeF4 have an expanded octet.
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High levels of ______ are essential in the medical field.
Which term describes an extensive network of tubes, sacs, and vesicles throughout a cell that provides transport as its main function? cell membrane endoplasmic reticulum centriole cell wall
The right option is; endoplasmic reticulum
Endoplasmic reticulum is a membrane bound organelle located in eukaryotic cells that forms a continuous interconnected series of flattened tubes, sacs and vesicles known as cisternae. Endoplasmic reticulum performs various functions in the cell, particularly in the production, arrangement, modification, and transport of proteins. There are two types of endoplasmic reticulum which are; rough and smooth endoplasmic reticulum.
There are two states of matter that are considered fluids. what are they, and why are they considered fluids (what can they do that solids can't do)?
Compare and contrast baby suggs before and after sethe's arrival at 124
A map that locates genes and markers based on the actual length of the dna sequence is called a
1. what happens to the ratio of surface area to volume as the cell size increases without the cell changing shape
2. What does a surface area/volume ratio of 6:1 mean for the cells ability to get the materials it needs that move across its surface
3. What does a surface area/volume ratio of 3:1 mean for a cells ability to get materials across its membrane compared to the cell with the ratio of 6:1
As a cell's size increases, its ratio of surface area to volume decreases. A higher ratio means a greater efficiency in material exchange across the cell membrane. A lower ratio, such as 3:1, may lead to difficulties in material exchange.
Explanation:1. When a cell's size increases, the ratio of surface area to volume decreases. This is due to the volume increasing at a faster rate than the surface area as the cell grows; thus the ratio becomes smaller.
2. A surface area to volume ratio of 6:1 means that the cell has a greater surface area relative to its volume. This allows the cell to efficiently exchange materials such as nutrients and waste with its environment through the cell membrane.
3. A ratio of 3:1 signifies less surface area relative to volume compared to 6:1. Therefore, a cell with a 3:1 ratio may experience difficulties transporting materials in and out quickly enough to meet its needs, compared to a cell with a larger surface area to volume ratio of 6:1.
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Which of these is true for a daughter cell produced by mitosis?
A. It functions in the same way as the parent cell.
B. It is unlike any other cell in the organism.
C. It has more cytoplasm than its parent cell had.
D. It is always a haploid cell.
Now that you have reviewed both immunity and the spread of disease, write an investigative question that you would like to answer by doing an experiment. Use the format “What is the effect of X on Y?”
Elements to include:
a question format of “What is the effect of X on Y?”an independent variable – immunitya dependent variable – disease spreadthe rate of the spread of disease (not just the spread of disease)The question for immunity and spread of disease is, what is the effect of immunity on the rate of spreading of disease?
What is immunity?Immunity is the capability of a multicellular body to resist from diseases, microorganism, and pathogens.
Our body has an immunity system that save us from harmful invaders by destroying them. The cells that help in killing pathogens are B cells, and T cells.
Thus, what is the effect of immunity on the rate of spreading of disease?
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An iv catheter is to be inserted into a 3-year-old toddler's peripheral vein. as local topical anesthetic is applied, the toddler starts to cry and asks whether the insertion is going to hurt. how should the nurse respond?
An iv catheter is to be inserted into a 3-year-old toddler's peripheral vein. as local topical anesthetic is applied, the toddler starts to cry and asks whether the insertion is going to hurt. Yes it will hurt, but not for very long
what is catheter ?Catheter is a sterile instrument used to empty the urine straight from the bladder. The process of removal of urine from the bladder using catheter is called catheterization.
The type of catheter which is left within the body is called the indwelling catheter.
In medical line, these are device that are used for patient for passing out of excretion while on sick bed.
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A group of scientists examined a meteorite from Mars and found a carbon-rich substance that is produced when microorganisms decay. They concluded that the meteorite provided evidence there was once life on Mars. Why is this an emerging idea?
Other scientists disagree about the origin of the carbon-rich substance.
The scientists only studied one meteorite
The yellow perch (percaflavescens) is a fish that breeds in spring. a single female can produce up to 40,000 eggs at one time. this species is an example of which of the key ideas ofdarwin's theory of evolution by natural selection?
The correct key idea of Darwin's theory of evolution by natural selection that the yellow perch (Perca flavescens) exemplifies is overproduction of offspring.
According to Darwin's theory of evolution by natural selection, individuals in a population exhibit variation in their traits, and some of these traits are heritable. In the struggle for existence, individuals with traits that confer a survival and reproductive advantage will tend to survive and produce more offspring than those without such advantageous traits. Over time, this process can lead to the evolution of adaptations.
One of the key ideas in this theory is the overproduction of offspring. This means that organisms typically produce more offspring than can survive to maturity given the limited resources in their environment. The yellow perch is a prime example of this principle, with a single female capable of producing up to 40,000 eggs in one breeding event. This high fecundity ensures that at least some of the offspring may survive to adulthood despite predation, disease, and other sources of mortality. The variation among these offspring means that some may possess traits that make them more likely to survive and reproduce, thus passing on their genes to the next generation. Over many generations, this can lead to changes in the traits present in the population.
In summary, the yellow perch's ability to produce a large number of eggs illustrates the principle of overproduction of offspring, which is a crucial component of Darwin's theory of evolution by natural selection. This high reproductive rate compensates for the high mortality rates typically seen in nature and contributes to the species' ability to adapt and survive over evolutionary time scales."
In humans, the maintenance of a stable internal temperature is a direct result of
Final answer:
The maintenance of a stable internal temperature in humans is the result of homeostasis, which involves various thermoregulation mechanisms like shivering to produce heat in the cold and sweating to cool down in heat.
Explanation:
In humans, the maintenance of a stable internal temperature is a direct result of a process called homeostasis. This essential function helps to keep the body's internal environment stable despite the changes in external conditions. Homeostasis doesn't only apply to temperature regulation; it also includes the management of pH levels, glucose concentration in the blood, and other vital variables that need to be maintained within narrow ranges to ensure the proper functioning of the body's cells.
The human body employs various mechanisms to maintain homeostasis and regulate body temperature, a process known as thermoregulation. For example, when exposed to cold temperatures, the body will begin to shiver to generate heat and maintain a stable internal temperature. Similarly, during high temperatures, the body can initiate sweating to help cool down. These responses are part of the body's complex system of checks and balances to ensure that optimal conditions for cellular function are preserved.
A woman comes into the er after a car accident. she needs a blood transfusion but she states that her religion is against blood transfusions. what decision do you make?
Which term describes the state in which your heart, blood vessels, and lungs are able to distribute nutrients and oxygen and remove wastes efficiently during prolonged exercise?
Ans. Cardiovascular endurance.
The state in which the lungs, heart, and blood vessels are able to distribute the nutrients and oxygen to working muscles and remove the waste products efficiently at the time of prolonged exercise is known as cardiovascular endurance.
Cardiovascular endurance defines how long a person can be active or keep going during prolonged physical activity, such as cycling, running, playing a sport, or walking.
Thus, the correct answer is 'cardiovascular endurance.'