Answer:
Based on the neutrophil count of 2,200 per microliter, the recommendation for chemotherapy may be delayed or reduced. Neutrophils are a type of white blood cell that help fight off infections, and chemotherapy can lower the neutrophil count, making the patient more susceptible to infections. A low neutrophil count is called neutropenia, and a count below 1,500 per microliter is considered severe neutropenia. The decision to delay or reduce chemotherapy will depend on the patient's individual case and the judgment of the healthcare team.
With a neutrophil count at this level, the patient would be susceptible to infections. Neutrophils play a crucial role in the immune system by fighting off bacteria and other pathogens. When the neutrophil count is low, the body is less able to defend against infections, making the patient more vulnerable. Common signs of infection include fever, chills, sore throat, cough, and diarrhea. Patients with neutropenia are typically advised to take precautions to reduce their risk of infection, such as avoiding crowds, washing their hands frequently, and avoiding contact with sick people. In some cases, patients may be prescribed antibiotics to prevent infections.
Answer:
1.) Based on the neutrophil count of 2,200 per microliter, it is likely that the recommendation for chemotherapy will be to postpone or delay it. Neutrophils are a type of white blood cell that play a crucial role in fighting infections. A low neutrophil count, also known as neutropenia, can make a person more susceptible to infections and increase the risk of serious complications. Chemotherapy can further suppress the immune system, which can increase the risk of infections in cancer patients. Therefore, if a patient's neutrophil count is low, it may be necessary to delay or adjust the chemotherapy treatment to reduce the risk of complications.
2.) With a neutrophil count of 2,200 per microliter, the patient would be susceptible to infections. Neutrophils are an important part of the immune system and play a key role in fighting bacterial and fungal infections. When the neutrophil count is low, the body's ability to fight infections is compromised, which can lead to an increased risk of infections. In particular, patients with neutropenia are at an increased risk of developing infections from bacteria that are normally present on the skin and in the gastrointestinal tract. These infections can be serious and potentially life-threatening, especially for cancer patients who are already dealing with weakened immune systems. To reduce the risk of infections, patients with low neutrophil counts may be advised to take extra precautions such as avoiding crowds, practicing good hygiene, and taking antibiotics prophylactically.
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the anterior portion of the roof of the mouth is the _____ palate.
The anterior portion of the roof of the mouth is the hard palate.
The hard palate makes up the anterior a part of the roof of the mouth. Made of bone and included with folds of mucus membrane, the hard palate separates the oral hollow space from the nasal cavities. The floor of the tender palate is a posterior continuation of the mucous membrane, however it carries no bone. Anterior element is referred to as the tough palate aka the roof of the mouth; Posterior element is known as the tender palate. The hard palate is the anterior horizontal bony a part of the palate that bureaucracy the roof of the oral hollow space and ground of the nasal hollow space. Most of the hard palate is fashioned via way of means of the palatine procedures of the maxillae, the horizontal plates of the palatine bones entire it posteriorly.
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In the light-dependent stage, what is the reactant?
ATP stands for ______ triphosphate, which is a molecule that powers many cellular reactions.A. IsotonicB. AlkalineC.HypertonicD. Acidic
Adenosine triphosphate, or ATP, is a chemical that fuels numerous biological processes.
Adenine, the sugar ribose, as well as the triphosphate are the three elements that make up ATP from the standpoint of biochemistry, which is why it is referred to as a nucleoside triphosphate. Adenosine triphosphate is referred to as ATP. It is created when ADP and Pi are phosphorylated. Because it gives the cell energy and serves as the primary form of energy money in all organisms, ATP is referred to as the currency of the cell. When food molecules are broken down, chemical energy is released that is captured by ATP and used to power other cellular operations.
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scientists use which fact as evidence that mitochondria and chloroplasts had prokaryotic origins?
The DNA of mitochondria and chloroplasts is distinct and less complex than the DNA found in the nucleus of a eukaryotic cell. The DNA of these organelles is similar to that of prokaryotic cells.
What precisely is DNA?The molecule that transmits the genetic material required for an organism to develop and function is deoxyribonucleic acid, generally known as DNA. DNA is made up of two linked strands which loop around each other and form a twisted ladder, forming a double helix.
What components makes up DNA?DNA is made up of a group of molecules called nucleotides. Each nucleotide consists of a nitrogenous bases, a sugar component, and a phosphate group. The nitrogen compounds adenine (A), pyrimidines (T), guanine (G), and nucleotides (C) can be found in DNA (C). A human genome contains billions of DNA molecules.
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What are the colors of a plant cell?
Answer:
There are 11 Plant cell colors.
Explanation:
1. Light Blue - Cytoplasm
2. Light Purple - Nucleus
3. Dark Purple - Nucleolus
4. Pink - Mitochondria
5. Orange - Golgi Apparatus
6. Light Green - Chloroplasts
7. Black - Ribosome
8. Grey - Vacuole
9. Blue - Cell Membrane
10. Dark Green - Cell Wall
11. Red - Endoplasmic Reticulum
which type of aquaculture involves a standing water system in which fish are raised to maturity then harvested?
A. recirculating system
B. bag or rack system
C.raceways
D.ponds
The correct answer is D. ponds.
Pond aquaculture involves raising fish in standing water systems that are usually larger than tanks and raceways. Fish are stocked in ponds and allowed to grow to maturity, after which they are harvested. Ponds can be made of various sizes and shapes, and they can be used to raise a variety of fish species, including catfish, tilapia, and trout. Pond aquaculture is a popular method of fish farming in many parts of the world, particularly in areas with suitable climate and access to water resources.
What Can Some Gram Positive Bacteria Do In Response To Harsh And Nutrient Limited Environments? A. Form An Endospore B. Form Cell Walls C. Self-Destruct D. Grow Flagella
In response to a harsh as well as nutrient limited environment, some gram positive bacteria form endospore.
The correct option is option A.
An endospore is basically a dormant, tough, as well as a non-reproductive structure which is produced by certain bacteria. The formation of endospore is commonly triggered by a lack of nutrients and this usually occurs in the case of Gram-positive bacteria. During the process of endospore formation, the bacterium basically divides within its own cell wall.
One side of it then engulfs the other. Endospores allows the bacteria to the lie dormant for long periods of time. When the environment gets more favorable, the endospore is able to reactivate itself to the vegetative state.
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which organelle displays structural directionality?
The microtubules show structural directionality withinside the eukaryotic cell.
Tubulin-containing protein subunits make up the cylindrical, long, and skinny microtubules. They are vital elements of the cytoskeleton, which offers eukaryotic cells their shape and stability. Because they've a plus give up and a minus give up, microtubules are polar and extraordinarily directed. In maximum cases, a microtubule's plus give up expands and increases, while the minus give up generally contracts and collapses. This directional characteristic is vital for numerous mobile functions, such as chemical transport, mobile migration, and cell division.
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neurons communicate with each other through the use of chemical messengers called
a. neurilemmas. b. somas. c. leukocytes. d. neurotransmitters.
Neurons communicate with each other through the use of chemical messengers called neurotransmitters.
What are neurons and what do they do?
The basic building blocks of the brain and nervous system are neurons (also known as neurones or nerve cells). Neurons are the cells that receive sensory information from the outside world, give motor commands to our muscles, and transform and relay electrical signals at each stage along the way.
Your body cannot function without chemical messengers called neurotransmitters. They are responsible for transporting chemical "messages" from one neuron (nerve cell) to the subsequent target cell. The following target cell may be a gland, muscle, or another nerve cell.
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A ___ square is a diagram that helps predict the
probable inheritance of alleles in different crosses.
Answer:
punnet square........
Answer:
The answer to your question is a Punnett square
Explanation:
A Punnett square is a graphical representation of the possible genotypes of an offspring arising from a particular cross or breeding event.
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Both a father and mother have type O blood. What will be the likely phenotypic ratio of their children? (PLS ANSWER)
0:4
1:2:1
1:1
3:1
If both parents have type O blood, they both must have two recessive alleles for blood type (i.e., they are homozygous for the recessive allele "o"). Therefore, all of their children will inherit one recessive "o" allele from each parent. The likely phenotypic ratio of their children would be 1:1 for blood type, with all children having type O blood.
Answer:
1:1 thats the answer
Explanation:
Which of the following organic compounds is the main source of energy in living organisms?
A. Proteins
B. Lipids
C. Carbohydrates
D. Amino Acids
The majority of the energy in living organisms comes from the following biological component: Carbohydrates
Which foods contain a lot of carbohydrates?Sugar molecules make up carbohydrates, or carbs. Carbohydrates are among the three primary nutrients included in foods and beverages, together with proteins and fats. Glucose is created by your body's breakdown of carbs. The primary source of energy for the cells, tissues, including organs in your body is glucose, sometimes known as blood sugar.
Which five advantages do carbohydrates offer?Carbohydrates inside the human body have five basic functions. They carry out tasks like as generating energy, storing energy, constructing macromolecules, consuming protein, and promoting lipid metabolism.
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What is the function of sugar in DNA?
The sugar molecule in DNA is called deoxyribose, and it has an important function as it serves as a component of the nucleotides that make up the DNA molecule.
The sugar molecule in DNA provides the backbone for the nucleic acid chain. The deoxyribose sugar molecule in DNA has a five-carbon ring structure, and the phosphate groups attach to the 5' carbon of one sugar molecule and the 3' carbon of the adjacent sugar molecule. This creates a sugar-phosphate backbone for the DNA molecule.
The nitrogenous bases (adenine, guanine, cytosine, and thymine) are attached to the 1' carbon of each sugar molecule, and they form the rungs of the DNA ladder by pairing up in specific ways (adenine with thymine and guanine with cytosine) through hydrogen bonding.
Together, the sugar, phosphate, and nitrogenous base molecules make up the nucleotides that form the DNA molecule. The specific sequence of these nucleotides in DNA carries the genetic information that is passed from one generation to the next.
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REPOST ANSWER FAST PLEASE need help with this question
The steps of the Calvin cycle into the correct order from top to bottom include:
D) Six carbon dioxide molecules combine with six 5-carbon molecules of RuBP to form twelve 3-carbon molecules of 3-PGA.
B) Rubisco converts ten G3P molecules into 5-carbon molecules of RuBP.
C) The chemical energy stored in ATP and NADPH is transferred to the 3-PGA molecules to form twelve G3P molecules.
A) Two G3P molecules leave the cycle to be used for the production of glucose and other organic molecules.
What is the Calvin cycle?A sequence of chemical processes known as the Calvin cycle, also known as the biosynthetic phase, dark reactions, or photosynthetic carbon reduction cycle of photosynthesis, transform carbon dioxide and hydrogen-carrier molecules into glucose.
The C3 cycle is another name for the Calvin cycle. The process through which sugars are formed out of the carbon from the carbon cycle.
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atp stands for ______ triphosphate, which is a molecule that powers many cellular reactions.
Adenosine triphosphate, usually referred to as ATP, is a small, extremely simple molecule. It can be compared to money, which is the primary economic currency of human society.
What does ATP stand for when it refers to the molecule that fuels several cellular processes, triphosphate?Adenosine triphosphate is used and stored as energy at the cellular level (ATP). The nucleoside triphosphate ATP is composed of adenine, ribose, and three serially bonded phosphate groups.
What does class 9 ATP stand for?Adenosine triphosphate is the official name for ATP. Energy is produced as needed by rupturing the phosphate link in ATP.
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leaf-like structures of seaweeds are known as
The leaf-like structures of seaweeds are known as "blades."
These content loaded leaf-like structures are the primary site of photosynthesis for the seaweed, and they can come in a variety of shapes and sizes.
Some blades are thin and ribbon-like, while others are broad and flat. Some seaweeds have a single blade, while others have multiple blades attached to a central stem or stipe. Regardless of their shape or number, the blades of seaweeds are an important part of the organism's structure and function.
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the layer of the skin called the lacks blood vessels is ?
The deepest layers of the epidermis are supplied by diffusion from blood capillaries found in the top layers of the dermis because the epidermis lacks blood vessels.
Which layer of skin is devoid of blood vessels?the epidermis The keratinized, stratified squamous epithelium makes up the epidermis. Depending on where it is located in the body, it has four or five layers of epithelial cells. It does not contain any blood vessels.
Why is the epidermis blood vessel-free?Because it is primarily composed of dead cells that are regularly shed off, the epidermis lacks blood arteries and nerves in contrast to the dermis and hypodermis. The division of cells produces new cells that are continually replacing the dead skin cells.
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when a chromosome undergoes a deletion mutation, information is
mutations caused by deletion, amplification, inversion, and translocation. chromosomal deletion mutation. A chromosome is broken in a deletion chromosome mutation, and the
What use do chromosomes serve?Thread-like structures known as chromosomes are found in the nuclei of both plant and animal cells. DNA (a cell's genetic information) is carried by chromosomes, which are made up of histone proteins.
What are chromosomes made of?Let's move on to the features of the chromosome structure. Chromosomes are coiled protein structures that resemble threads. DNA, the building block of all genetic material, is contained in chromosomes in the nucleus of all cells.
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the process of phages carrying prokaryotic genes from one host cell to another is called
Prokaryotic genes are transferred between host cells by phages. Bacterial DNA is packaged into a capsid by a bacteriophage virus.
What elements make up bacteria?It is a gel-like matrix that contains cell structures like ribosomes, a chromosome, and plasmids as well as water, enzymes, nutrients, wastes, and gases. The cytoplasm and all of its components are enclosed within the cell envelope. Bacteria do not have a nucleus that is enclosed by a membrane, unlike eukaryotic (true) cells.
What was the first name for bacteria?In 1676, Antonie Van Leeuwenhoek made his first observation of bacteria, which he referred to as "animalcules" (from the Latin "animalculum," which means "tiny animal"). Although he observed multicellular organisms in pond water, the majority of animalcules are now referred to as unicellular organisms.
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What can we then say about the relative age of fossils A, B, C, E, and F based only on fossils D? How?
Fossil D can only be used to determine the relative age of fossils A, B, C, E, and F if it is known which fossil is older and which is younger.
What is fossils ?
Fossils are the remains of plants or animals that have been preserved in the earth’s sedimentary layers. They can be found in many different forms, such as bones, shells, tracks, and even impressions. Fossils are important to scientists, as they provide valuable information about the history of life on Earth and the evolution of species. Fossils can range in age from thousands to millions of years old. The study of fossils is known as paleontology, and it provides a look into the past that cannot be found in any other way. Fossils can be found all over the world, and they have been used to help us understand the evolution of the environment and the plants and animals that inhabit it.
For example, if fossil D is known to be older than fossil E, then we can conclude that fossil A, B, C, and F are all younger than fossil D and fossil E. Similarly, if fossil D is known to be younger than fossil C, then we can conclude that fossil A, B, E, and F are all older than fossil D and fossil C. Therefore, the relative age of fossils A, B, C, E, and F can only be determined if the relative age of fossil D is known.
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QuestionAt rest the largest volume of blood is in theAArteriesBCapillariesCVeinsDArterioles.Medium
At rest the largest volume of blood is in Veins. option c)
The circulatory system consists of blood vessels that carry blood away from the heart which is done by arteries and carry towards the heart by the veins. The arteries carries oxygenated blood from the heart to the tissues and other body parts and veins carry deoxygenated blood from the tissues and other body parts to the heart for the purification of the impure blood.
Veins have largest lumen size as compared to arteries and arterioles and are known as capacitance vessels which are those vessels which can accomodate changes in the flow of the blood and can hold the most volume.
Arteries and arterioles contains blood under high pressure and therefore can not hold larger volume at rest. Arteries are tube-like vessels and the muscles inside them ensure your organs and tissues have the oxygen and nutrients they need to function. Arterioles are a very small blood vessel that branches off from your artery and carries blood away from your heart to your tissues and organs. Arterioles are small arteries that link up to capillaries, which are smaller yet.
Capillaries forms the link between the arteries and arterioles and transfer materials between blood and tissue fluids. They transport blood, nutrients and oxygen to cells in your organs and body systems. Capillaries are the smallest blood vessels in your vascular system.
Therefore option (c) is correct.
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Which domain contains organisms having a membrane bound nucleus?
eukaryotic creatures with a membrane-bound nucleus are classified as eukarya .
Which domain houses a nucleus that is membrane-bound?Eukaryotes were organisms whose cells have membrane-bound organelles in addition to a nucleus.Eukaryotic creatures come in a great variety, including most algae, all animals, plants, fungus, and protists.
Are domain bacteria's nuclei membrane-bound?Organelles and other interior membrane-bound structures are absent from bacterial and archaeal cells.Archaea and bacteria lack a nucleus that separates its genetic material from of the rest of the cell, in contrast to eukaryotes.
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Any substance that enters or leaves your body must cross neural tissue. secretory tissue. muscle tissue. connective tissue. epithelial tissue.
A closely packed continuous layer of cells forms the issue. The epithelium tissue has one surface that is either open to the environment outside or to bodily fluids. The membrane that connects the other surface to the tissue is made up of fibers and polysaccharides that are produced by epithelial cells.
There isn't much intercellular substance between cells. The epithelium's cells are connected by specialized junctions that join individual cells together.
Tight junctions: They stop tissue leaking
Adhering junctions: maintain the nearby tissues firmly adhered to one another.
The flow of ions and molecules through the tissue is facilitated by gap junctions.
Membranes are created by epithelial cells. There is connective tissue beneath the layer of epithelial tissue that makes up the epithelial membrane. The mucous membrane and the serous membrane are the two different kinds of epithelial membranes.
Mucosa is another name for the mucous membrane. Goblet cells, which produce mucus, are present. Mucus facilitates lubrication, protection, and simple material mobility. The drying of tissues is stopped. It borders internal bodily compartments like the digestive and respiratory systems, which are accessible from the outside.
Serous membrane: The lining of the pleural cavity and pericardial membranes are examples of bodily cavities that do not open to the outside of the body. These membranes, which are composed of straightforward squamous epithelium, secrete the fluid from the cavity.
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of the four supergroups of eukaryotes, which one contains fungi, animals, and slime molds?
The Opisthokonta supergroup is made up of slime molds, mammals, and fungi.
One of the four main subgroups of eukaryotes, along with the Archaeplastida, SAR (Stramenopiles, Alveolates, Rhizarians), and Excavata supergroups, is the Opisthokonta supergroup. A wide variety of creatures, including fungi, mammals, and unicellular protists like choanoflagellates, are members of the Opisthokonta supergroup (including humans). Slime mold categorization can fall within either the Opisthokonta supergroup or the Amoebozoa supergroup, according to the classification system being employed. One of the largest groupings of eukaryotes, the Opisthokonta supergroup encompasses a wide variety of species, such as single-celled protists, fungi, and mammals (including humans).
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What was Kettlewell and Haldane study of moths?
The Kettlewell and Haldane case study is a well-known example of industrial melanism in moths. The concept of industrial melanism occurs when a population of an organism acquires dark colorations to better fit in with the surroundings.
Kettlewell and Haldane did their research in the 1950s in England. They investigated the peppered moth, a type of insect with two colour morphs - a bright and a dark version. The light variant of the moth predominated in England. But, when industrial pollution increased in some regions, the black variety of the moth became more widespread.
Kettlewell and Haldane conducted a series of tests to evaluate the notion that the moths' black colour was caused by natural selection. They released bright and dark coloured moths into a contaminated environment in the first experiment. The black moths were found to be more likely to survive than the light ones. They released light and dark moths into an unpolluted region in the second trial. The light moths were more likely to survive this time.
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what is the calcium-phosphate salt deposited within bone called?
The calcium-phosphate salt deposited within bone is called 'hydroxyapatite'.
What do you mean by hydroxyapatite?
Hydroxyapatite is a mineral form of calcium phosphate, which is a natural component of human bones and teeth. It is also used in orthopedic and dental implants, as well as in some medical treatments. Hydroxyapatite is known for its high strength and biocompatibility, making it a popular material for medical applications.
It's a naturally occurring mineral that makes up more than 95% of the calcium and phosphorus in bones and teeth. It is a hard, insoluble material that gives bones their rigidity and strength. It also helps to regulate the pH of the body and allows for the transport of minerals throughout the body. It is a key part of the mineralization process that helps to harden and strengthen bones.
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A burn caused by boiling water causes proteins inside your cells to lose their functions. Explain why the high temperature causes this to happen.A. The increased temperature disrupts covalent bonds such as peptide bonds which causes the proteins to lose their primary structures and abilities to catalyze reactions.B. The increased temperature disrupts weak interactions such as hydrogen bonding which causes the proteins to lose their primary structures and abilities to catalyze reactions.C. The increased temperature disrupts weak interactions such as hydrogen bonding which causes the proteins to lose their tertiary structures and abilities to bind specific molecules.D. The increased temperature disrupts covalent bonds such as peptide bonds which causes the proteins to lose their tertiary structures and abilities to bind specific molecules.
Option B. The increased temperature disrupts weak interactions such as hydrogen bonding which causes the proteins to lose their tertiary structures and abilities to bind specific molecules.
The increased temperature disrupts weak interactions such as hydrogen bonding which causes the proteins to lose their tertiary structures and abilities to bind specific molecules.
High temperature can cause proteins to denature, or lose their three-dimensional structure, due to the disruption of weak interactions such as hydrogen bonding, van der Waals forces, and hydrophobic interactions. This disruption can cause the protein to lose its ability to bind to specific molecules, which can affect its function. Covalent bonds, such as peptide bonds, are stronger and require even higher temperatures to be disrupted. The loss of protein function can lead to a range of cellular and physiological effects, including tissue damage and cell death, as seen in burns caused by boiling water.
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Which is the best prediction about the cell structures of muscle cells
The cell structure that produces energy is the mitochondrion. In this manner, the best expectation is that muscle cells contain an enormous number of mitochondria to give more energy. The correct answer is (B).
Skeletal muscle filaments are long, multinucleated cells. The layer of the cell is the sarcolemma; the cytoplasm of the cell is the sarcoplasm. The sarcoplasmic reticulum (SR) is a type of endoplasmic reticulum. Muscle filaments are made out of myofibrils which are made out of sarcomeres connected in series.
Each strand is comprised of sub-units called "sarcomeres." These sarcomeres contain the "constriction proteins" called actin and myosin. The synthetic collaborations of these two proteins are answerable for the capacities of the muscle to contract (abbreviate), unwind and deliver force (important to move the body or articles).
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Q- Which is the best prediction about the cell structures of muscle cells?
A. Muscle cells have a large volume of cytoplasm so that the cell can easily change shape.
B. Muscle cells contain a large number of mitochondria in order to provide more energy.
C. Muscle cells do not have nuclei because they do not need to produce proteins.
D. Muscle cells are surrounded by cell walls so that they are strong enough to move bones.
During food processing some natural nutrients can be lost. Through the following process, these nutrients can be added back. An example would be B Vitamins in bread.Question 4 options:FortifiedEnrichmentPasteurization
The body needs the nutrients that are lost during cooking to function properly, so they must be put back. Enrichment is the method used to reintroduce the nutrients.
What exactly does enrichment entail?The enrichment process is the method of reintroducing nutrients to processed food to make it enriched. They are the reintroduction of the food's original nutrients. The two are not the same as fortification.
To increase the shelf life of food goods and eradicate any microbiological growth, pasteurisation is the process of adding heat to the product. Consumable food quickly deteriorates and decays. Fortification is the process of adding nutrients to food that weren't present naturally in order to increase its nutritional worth.
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For Habitats and ecosystems homework
Answer:a river
Explanation:
River ecosystems are flowing waters that drain the landscape, and include the biotic interactions amongst plants, animals and micro-organisms, as well as abiotic physical and chemical interactions of its many parts