Answer:
Bitumious Coal
Explanation:
Because it's important in generation of electricity and it's raw materialistic behavior it's set to be the most abundant one. It accounts about 45% coal in the whole United States
the morris water maze is a task in which a rat must swim through murky water to find a platform. a rat with hippocampal damage has difficulty with the morris water maze because it .
The Morris Water Maze is a task designed to test the learning and memory capabilities of rodents such as rats. In this task, the rat is placed in a pool of murky water and must swim to a hidden platform in order to escape the water.
Rats with hippocampal damage have difficulty with the Morris Water Maze task because the hippocampus is an essential brain region for learning and memory.
The hippocampus is responsible for encoding and forming new memories, and it is essential for the formation of spatial memory. Spatial memory involves the ability to recall where a certain object or location is in relation to other objects and locations. This is necessary for the Morris Water Maze task because the rat must remember where the hidden platform is in order to find it. Rats with hippocampal damage are unable to form these spatial memories and thus have difficulty with the task.
Additionally, the hippocampus is important for the consolidation of memories. This is the process by which information is stored in the long-term memory. If the information is not stored in long-term memory, the rat will not be able to recall the location of the platform in subsequent trials. Rats with hippocampal damage are unable to consolidate memories and thus will not be able to remember the location of the hidden platform in subsequent trials.
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FILL IN THE BLANK. the energy released during [ select ] reactions can be used to drive [ select ] reactions, and this is called [ select ] reactions.
The energy released during exergonic reactions can be used to drive endergonic reactions, and this is called coupled reactions.
What happens when energy is released?Glucose is broken down during respiration. In addition to producing carbon, water, and energy in the form of ATP. Inside the cell, a biological process is in motion. The energy that is released is used for a variety of metabolic processes.
How do endergonic and exergonic reactions work?Exergonic reactions are a particular kind of spontaneous response that involve the "release" of free energy, which in this case is negative (less than zero). In contrast, endergonic reactions, which are those in which energy enters the system, have positive free energy (greater than 0).
What are coupled reaction?the chemical process that transfers energy from one side of the reaction to the other through a shared intermediate. The endergonic process of the creation of ATP, which is connected to the dissipation of a proton gradient, serves as an illustration.
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which one of the following enzymes, when activated, would indirectly affect the reaction direction of phosphoglucomutase?
Activation of glucose-6-phosphate dehydrogenase, hexokinase, glucose-6-phosphatase and glucokinase would indirectly affect the reaction direction of phosphoglucomutase.
All the option are corect. B
An enzyme called phosphoglucomutase moves a phosphate group from the 1 to the 6 position on a -D-glucose monomer in the forward direction or from the 6 to the 1 position in the reverse direction.
A compound made of inorganic vanadate and alpha-D-glucose 1-phosphate (Glc-1-P) inhibits phosphoglucomutase (Vi). The concentrations of Glc-1-P and Vi affect both the inhibition at steady state and the pace of approach to steady state.
In order to raise the levels of cyclic Adenosine monophosphate (cAMP), which activates PKA, glucagon promotes adenylyl cyclase activity. To convert glycogen to glucose 1-phosphate, PKA increases glycogen phosphorylase activity. Phosphoglucomutase isomerizes glucose 1-phosphate to G-6-P.
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Complete question :: Which ONE of the following enzymes, when activated, would indirectly affect the reaction direction of phosphoglucomutase?
A. glucose-6-phosphate dehydrogenase
B. all of these
C. hexokinase
D. glucose-6-phosphatase
E. glucokinase
Evolutionary theories of motivation suggest that motives result in behaviors that a. maximize reproductive success. b. reduce biological needs. c. restore homeostasis. d. reduce incentives.
a. maximize reproductive success.
Evolutionary theories of motivation suggest that motives result in behaviors that maximize reproductive success.
What are evolutionary theories?Evolutionary theories take the long-term look at the emergence of the human species. According to this perspective, humans of today carry with them genetically guided characteristics passed from generation to generation that have contributed to survival and reproductive success.
Evolutionary theory highlights the adaptive value of within-species variability. Optimal biological and behavioral strategies differ depending on the nature of the environmental context.
When the same adaptations evolve independently, under similar selection pressures. For example, flying insects, birds and bats have all evolved the ability to fly, but independently of each other.
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Classify each distinguishing characteristic based on whether it describes the catalytic or stoichiometric coenzymes of the pyruvate dehydrogenase complex. Catalytic coenzymes Stoichiometric coenzymes thiamine pyrophosphate (TPP) coenzyme A lipoic acid NAD regenerated used once
catalytic or stoichiometric coenzymes of the pyruvate dehydrogenase complex can be classified as
Catalytic coenzymes: Thiamine pyrophosphate (TPP), Lipoic acid, Regenerated
Stoichiometric coenzymes: Coenzyme A, NAD+, Used once.
In each cycle of the reaction, the catalytic coenzymes TPP, lipoic acid, and FAD undergo modification but also regeneration. As a result, they may be involved in the processing of numerous pyruvate molecules. Because they are components of the reaction's products, stoichiometric coenzymes (coenzyme A and NAD1) are only used in one reaction. There are two categories of coenzymes. The first is referred to as a "prosthetic group," and it is made up of a coenzyme that is permanently (or even covalently) bound to a protein. The term "cosubstrates" refers to the second class of coenzymes, which are temporarily bound to the protein.
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The ______ forming the lateral walls of the mouth, consist of outer layers of skin, pads of subcutaneous fat, muscles associated with expression and chewing, and inner linings of moist, stratified squamous epithelium.
cheeks
The cheeks forming the lateral walls of mouth, consist of outer layers of skin, pads of subcutaneous fat, muscles associated with expression and chewing, and inner linings of moist, stratified squamous epithelium.
What are the different types of epithelial cells in our body?There are various forms of epithelial tissue due to the various shapes and types of epithelial cell layers, including:
Simple squamous epithelium: This type of epithelium typically lines blood vessels and body cavities and regulates the amount of material that is allowed to enter the underlying tissue.
Simple cuboidal epithelium: This type of epithelium is usually found in glandular (secreting) tissue and kidney tubules.
Simple columnar epithelium: This type of epithelium is designed for absorption and frequently features apical cilia or microvilli. These cells line your intestines and stomach.
A type of epithelium known as stratified squamous epithelium often acts as a barrier against water loss and/or microbial infiltration into the underlying tissue. Squamous epithelial cells arranged in stratified layers make up the epidermis, or top layer, of your skin.
A less common type of epithelium that can be seen in the excretory ducts of your sweat and salivary glands is called stratified cuboidal epithelium.
Stratified columnar epithelium: This unusual type of epithelium is found lining the conjunctiva of the eyes, which functions as an organ of mucus secretion and protection.
The pseudostratified columnar epithelium that lines your upper respiratory tract normally has many cilia.
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asexual reproduction will only produce haploid cells in sexual reproduction each parent will donate half their genes to their offpring
The answer is it's true that in asexual reproduction, only haploid cells are produced and in sexual reproduction, each parent will give half of their genes to their offspring.
What is asexual reproduction?
There is only one parent in asexual reproduction. Genetic equivalence between the offspring and the parent is achieved. Fragmentation, budding, and binary fission are some of them.
What is sexual reproduction?
Two parents are involved in sexual reproduction. Gametes are the reproductive cells that parents make and combine to produce offspring. Meiosis, a form of cell division, is the process that creates gametes. Fertilization is the process through which two gametes come together. The resulting fertilized cell is known as a zygote. A zygote has twice as many chromosomes as a gamete since it is a diploid cell.
Therefore, in asexual reproduction, only haploid cells are produced and in sexual reproduction, each parent will give half of their genes to their offspring.
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traits like red-green colorblindness, hemophilia, and duchenne muscular distrophy are recessive alleles. however, in the human population, men show a higher frequency of these disorders than women. also, sons never inherit the disorder from their fathers. this is because these genes are
Our biological parents leave us with particular gene inheritance patterns. The term "X-linked recessive inheritance" refers to one of the fundamental genetic inheritance patterns.
What does the term X-linked recessive mean?Genetic problems connected to mutations in X chromosome genes are referred to as X-linked recessive inheritance. Due to the fact that he possesses just one X chromosome, a male with this mutation will be impacted. The majority of the time, a female with a gene mutation on one X chromosome and a gene from one parent on the opposite X - linked is unaffected.
What does dominant vs. recessive X-linked mean?In each generation, males are typically affected in households with an X-linked genetic disease, but seldom are females. However, in X-linked dominant disorders, a mutation in one allele of an X-linked gene causes disease in both sexes.
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if the frequency of the m allele in the human mn blood group system is 0.65 in a population at equilibrium, then the frequency of the n allele must be 0.04. t/f
If the frequency of the m allele in the human mn blood group system is 0.65 in a population at equilibrium, then the frequency of the n allele must be 0.04 is false.
The frequency of the N allele must be 0.35 since the sum of the allele frequencies must equal 1. The genotype frequency of a population can be calculated by dividing the total population size by the number of people who share a particular genotype. The genotype frequency is a frequency or percentage measure used in population genetics.
Squaring the allele frequency A yields the genotype AA frequency. By squaring a, one may determine the frequency of aa. Try changing p and q to various numbers, but make sure they remain equal to 1. The genotype frequency is the proportion of the population that belongs to a particular genotype. If it is found that six out of the 200 people studied for a site with three different alleles have the genotype AA, the genotype frequency for that place is 6/200, or 0.03 per cent.
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The BLANK nervous system communicates with the skeletal muscles and the BLANK nervous system communicates with the smooth and cardiac muscle as well as glands.
A) autonomic; enteric
B) enteric; somatic
C) enteric; autonomic
D) somatic; autonomicD) somatic; autonomic
D) somatic, autonomic is the correct answer.
The somatic nervous system communicates with the skeletal muscles and the autonomic nervous system communicates with the smooth and cardiac muscle as well as glands.
The somatic nervous system is a part of the peripheral nervous system that is involved in the voluntary control of skeletal muscle movement.
It controls every bodily function, including how our arms, legs, and other body parts move.
Involuntary physiological activities including heart rate, blood pressure, breathing, digestion, and sexual arousal are regulated by the autonomic nervous system, a part of the peripheral nervous system. Sympathetic, parasympathetic, and enteric are its three physically separate divisions.
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the soils of the boreal forest acidic and leached of humus and clays, belonging to the ___ soil order. a. andisols b. spodisols c. entisols
The andisols soil order includes the acidic, humus- and clay-leached soils of the boreal forest.
In volcanic ash or other volcanic ejecta, soils called andisols form. They are different from those of other soil orders in that glass and short-range order colloidal weathering products including allophane, imogolite, and ferrihydrite often predominate (minerals). Because of this, andisols have andic characteristics, which are distinct chemical and physical traits include a high capacity to hold water and the power to "fix" (and render unavailable to plants) substantial amounts of phosphorus.
Andisols make up only 1% of the world's ice-free territory, making them the least common soil order. They encompass some fruitful woods in the Pacific Northwest region and make for around 1.7% of the total land area of the United States.
Aquands, Gelands, Cryands, Torrands, Xerands, Vitrands, Ustands, and Udands are the eight suborders that make up the Andisols.
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when gregor mendel crossed true-breeding tall plants with true-breeding short plants, all the offspring were tall because
When Gregor Mendel crossed true-breeding tall plants with true-breeding short plants, all the offspring were tall because the allele for tall plants is dominant.
Gregor Mendel gave three laws of heredity of characters through the use of pea plant. When he crossed true breeding tall plants, it means that the pair of genes are homozygous and they can be represented as TT, because tall 'T' is the dominant trait. When he considered true breeding short plants, it means that the pairs of genes are again homozygous and can be represented as tt as small 't' is a recessive trait. Thus when segregation of pair of genes takes place and the traits transferred to off-springs are determined, the presence of dominant character in all four possibilities causes all the off-springs to be dominantly tall.
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a compound that preents teh seperation of the homogous chromsoems in anaphase 1 is being studid. which fo the followign questions can be best answered during this study
The question which can be best answered during this study is- D. Is there a pattern to the movement of homologous chromosomes in the presence of this compound?
A compound that prevents the division of the homologous chromosomes in anaphase I is of great interest since it will cause cell cycle capture, an impact that is thoroughly searched in enemy of disease drugs. However, before the compound can be used in clinical trials, it needs to be thoroughly studied. This study could provide answers to the following questions: " In the presence of this compound, does the movement of homologous chromosomes follows a pattern?" The response to this question will inform us as to whether the cells will go to apoptosis, which is what we search for in an enemy of malignant growth drugs.
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(complete question)
A compound that prevents the separation of the homologous chromosomes in anaphase I is being studied. Which of the following questions can be best answered during this study
A) Will the cells produced at the end of meiosis still be genetically identical to each other in the presence of this compound?
B) Will the long-term development of the individual be affected by this meiotic error?
C) When do the centrosomes start to move apart during meiosis I as compared to meiosis II?
D) Is there a pattern to the movement of homologous chromosomes in the presence of this compound?
The light micrograph shows dividing cells near the tip of an onion root. Identify a cell in each of the following stages:
Drag the appropriate labels to their respective targets.
a. anaphase
b. prophase
c. prometaphase
d. metaphase
e. telophase
A light micrograph of an onion root's tip reveals dividing cells. In each of the next stages, name a cell. Drag the appropriate labels to the diagram's shown targets.
a. Anaphase: The fourth stage of mitosis, or anaphase, occurs when a parent cell's replicated genetic material is split into two identical daughter cells.
b. Prophase: The first stage of mitosis, or the division of a parent cell's genetic material into two identical daughter cells, is known as prophase. The chromatin, a combination of DNA and proteins found in the nucleus, condenses during prophase.
c. Prometaphase: The second stage of mitosis, or the division of a parent cell's genetic material into two identical daughter cells, is known as prometaphase. The nuclear envelope, a physical shield that protects the nucleus, disintegrates during prometaphase.
d. Metaphase: A phase of cell division known as "metaphase" (mitosis or meiosis). Individual chromosomes are typically dispersed throughout the cell nucleus. The chromosomes of the cell condense and move toward one another, aligning in the center of the dividing cell, and the nucleus of the cell disintegrates during metaphase.
e. Telophase: The fifth and final stage of mitosis, or the division of a parent cell's genetic material into two identical daughter cells, is known as telophase.
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which of the following substances is a lipid that is necessary for the proper development of an infant's nervous system? oleic acid dha hydroxybutyric acid atp
b) DHA is a lipid that is necessary for the proper development of an infant's nervous system.
Docosahexaenoic acid (DHA) can be described as a kind of lipid that is formed by omega-3 fatty acids.
Omega-3 fatty acids, such as Docosahexaenoic acid (DHA), are considered to be one of the most required fatty acids for the proper development of a child's nervous system.
It is not only a primary component of the nervous system but also various other organs such as the brain and the eyes. If Docosahexaenoic acid (DHA) is not present in the diet of an infant, then he will not be able to have a proper nervous system.
The question will correctly be written as:
Which of the following substances is a lipid that is necessary for the proper development of an infant's nervous system?
a) oleic acid
b) DHA
c) hydroxybutyric acid
d) atp
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Phosphagens are a group of molecules that includes creatine phosphate (in vertebrates), and arginine phosphate, lombricine, and phosphoopheline (in invertebrates). These molecules have similar functions in different organisms.
What functions do these molecules have in common?
HW-13
-They can accept phosphoryl groups from ATP when ATP is present in excess.
-They increase the strength and size of muscle tissue.
-They can take the place of ATP in metabolic reactions when [ATP] is low in the body.
-They can be chemically converted to ATP, which is hydrolyzed to ADP to provide energy.
-They can donate phosphoryl groups to ADP to regenerate ATP.
When glycolysis or oxidative phosphorylation cannot quickly supply the energy required by muscular tissues, phosphoglycation steps in to fill the gap.
Option b is correct
How does the phosphagen system function and what is it?The term "phosphagen energy system" refers to the total amount of cellular ATP and phosphocreatine. For 8 to 10 seconds, or about enough time for a 100-meter run, these chemicals can work together to provide maximum muscle strength. As a result, the phosphagen system's energy is employed to produce the strongest possible short bursts of muscle force.
What exactly does phosphagen mean?Any of a number of organic phosphate molecules, including phosphocreatine and phosphoarginine, that are found mostly in muscles and release energy upon phosphate breakdown.
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TDQ3: Without looking at page 3 (as much as you can), draw the process of mitosis. You will need to be able to draw and explain each step of mitosis on assessments.
The cell cycle phase known as mitosis occurs when a cell's nucleus divides into two daughter nuclei, each of which contains an equal amount of genetic material. After the nucleus separates, it follows the G2 phase and is followed by cytoplasmic division.
The proliferation of cells and the replacement of damaged cells depend on mitosis. Genetic diseases could be caused by aberrations during mitosis.
Interphase
A cell spends a portion of its growth cycle in interphase before initiating mitosis. When in interphase, it goes through the following phases:
G1 Phase: The G1 Phase is the time frame prior to DNA synthesis.
S Phase: The phase during which DNA synthesis occurs is known as the S phase.
G2 Phase: Between the conclusion of DNA synthesis and the start of the prophase is the G2 phase.
Prophase
The cycle's prophase, which comes just after the S and G2 phases, is characterised by the condensing of the genetic material into compact mitotic chromosomes made of two chromatids joined at the centromere.
The start of the construction of the mitotic spindle, the microtubules, and the proteinaceous cytoplasmic elements that aid in the process mark the end of the prophase.
Metaphase
At this point, the chromosomes begin to be pulled by the microtubules equally, and they end up at the centre of the cell. The metaphase plate refers to this area. As a result, every cell receives a fully functional genome.
Anaphase
Anaphase begins with the separation of the sister chromatids. These sister chromatids develop into the daughter nuclei's chromosomes. The fibres connected to each chromosome's kinetochores then tug the chromosomes in that direction. Each chromosome's centromere leads at the edge while the arms follow.
Telophase
As the nuclear membrane begins to form surrounding it, the chromosomes that are clustered at the two poles start to coalesce into an undifferentiated mass. After disappearing after prophase, the nucleolus, Golgi bodies, and ER complex begin to return.
Hence, cell cycle is organized and sequential event.
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fill in the missing terms in the following illustration. the correct answers are provided at the back of the book
The correct response for question 10 is - Microtubule. The protein alpha and beta glucan are used to create the small hollow tubes known as microtubules.
What purpose does the microtubule serve?A cell's form is determined by the components of its skeleton known as microtubules, together with elastic fibers and microfilaments. Microtubules play a variety of roles in dividing cells, including the construction of the mitotic spindle and axon extension in neurons.
What does a cell's microtubule do?The third main component of the microtubule, microtubules, are hard, hollow rods with a diameter of around 25 nm. Like thin filaments, micelles are proposes that undergo ongoing construction and disintegration within the cell.
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Develop a drug that decreases the cell density of the microbial infection.The following is an excerpt from a scientific paper written by Pan & Ren.Since the discovery in 1960s, a cell-cell signaling system known as quorum sensing (QS) has been identified in numerous microbial species. During cell growth, small signaling molecules are synthesized and secreted into the surrounding environment. As a result, the local QS signal concentration increases with cell density. When the cell density is above a certain threshold, a significant amount of signaling molecules bind to intracellular or membrane receptors and trigger the expression of a series of genes to control a wide spectrum of phenotypes.Pan, J. & Ren, D. (2009). Quorum sensing inhibitors: a patent overview. Expert Opinion on Therapeutic Patents, 19(11), 1581-1601. doi:10.1517/13543770903222293Some microbes use QS signaling pathways to trigger the expression of virulence genes. The expression of these genes enhances the virulence, or harmfulness, of the microbial infection.Which of the following represents the best method to decrease the virulence of a microbe capable of QS?
The best method to decrease the virulence of microbe capable of QS is to develop a drug that decreases the cell density of the microbial infection.
What is meant by virulence?An ability of an organism to infect the host and cause a disease is described as virulence. Virulence factors are molecules that assists the bacterium to colonize the host at the cellular level. And these factors are secretory, membrane associated or cytosolic in nature.
Exotoxins is one of the most significant virulence factors of bacteria. is When released by bacteria, exotoxins interrupt and dysregulate important cellular processes. They also help in the bacterial proteins' capacity to invade tissues.
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According to Melanie Klein, which of the following statements is true about infantile paranoid-schizoid position?
Answer: A. An infant develops this position because of the alternating experiences of gratification and frustration that threaten its ego.
Explanation: I took the quiz
although male and female infants may show signs of sexual response, nothing resembling an orgasm is possible until puberty.
The statements mentioned is about sexuality early in life, but this statement was inappropriate.
Which are the main stages of sexuality in our life?The sexual response cycle has four phases: excitement, plateau, orgasm, and resolution. Both men and women experience these phases, although the timing usually is different.Children develop sexually, just as they develop physically, emotionally and socially. This process begins at birth and continues through childhood. Even young children have sexual feelings or response and engage in sexual behavior (such as touching their sex parts or saying dirty words).Four sexual response cycles , the human sexual response cycle is divided into four phases, are, excitement, plateau, orgasm, and resolution.Learn more about sexual response cycle here: brainly.com/question/28348398
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the late robert blanchard and dixie blanchard derived rich descriptions of rat intraspecific aggression and defense by using
The late Robert Blanchard and Dixie Blanchard derived rich descriptions of rat intraspecific aggression and defense by using: the colony intruder model of aggression and defense.
Aggression is defined as the state of mind where a person remains in extreme anger and has the instinct to attack or harm someone. Aggression can be stated as normal when it occurs rarely and for short duration of time. However, it can be threatening when it occurs regularly.
Defense is the act of protecting oneself or some other person from being attacked. Defense can be protection from some physical harm or the social and mental harm faced due to criticism or humiliation.
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after the 1933 hurricane carved out a tidal channel through the barrier island just south of ocean city, the army corps of engineers constructed a pair of jetties on each side of the inlet to keep it open. these are labeled post-1933 jetty on fig. 15.7. sand filled in behind the northern jetty, so it is now a seawall forming the straight southern edge of ocean city on fenwick island. based on this information, would you say that the longshore current along this coastline is traveling north to south or south to north? explain your reasoning.
After the 1933 hurricane etched out Ocean City Inlet,, the military Corps of Engineers made a combine of jetties on either side of Ocean City Inlet, to stay it open. The southern mole is labelled "seawall" on the map.
Hurricane is an extremely massive, powerful, and harmful storm with terribly sturdy winds that happens particularly within the western a part of the Atlantic.
A tidal creek or tidal channel is a slim water or water that's stricken by the ebb and flow of ocean tides. These channels are anticipated to make by deposition between flow pathways, instead of erosion, and periodic event channels could also be relic distributaries.
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select the tunics that contain the intramural plexus. question 17 options: mucosa muscularis submucosa serosa
muscularis Intra mural plexus is the name given to the plexus found between layers of muscle.
The myenteric plexus, a component of the enteric neural system, is located in the gastrointestinal tract between the longitudinal and circular layers of muscularis externa. It is present in the esophageal, stomach, and intestinal muscles.
Although the present ganglion cell bodies belong to parasympathetic innervation, fibers from sympathetic innervation also reach the plexus. The submucous plexus provides secretomotor innervation to the mucosa closest to the gut lumen. The myenteric plexus (or Auerbach's plexus) provides motor innervation to both layers of the muscular layer of the gut. It develops from cells in the medulla oblongata's vagal trigone, also referred to as the nucleus ala cinerea, the parasympathetic nucleus of origin for the tenth cranial nerve (vagus nerve).
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17th-century French scientist and philosopher Blaise Pascal
(1623-1662) discovered that air pressure decreases with height and that pressure-changes at ground level can be attributed to the daily weather. These discoveries are used to predict the weather today.
HOW DOES THIS FACT RELATE TO MY RESEARCH QUESTION WHICH IS
WHAT EFFECT DOES THE AMOUNT OF AIR PRESSURE HAVE ON HOW FAR A SOCCER BALL TRAVELS WHEN KICKED?
"The greater the air pressure in the ball, the farther it will travel when a force is applied."
"The pressure then the less friction there is for the ball to travel. Air pressure, determines the ball"
Complete the Concept Map to describe surface membrane barriers and their protective functions, and describe the nonspecific internal defenses including the role of natural killer cells, phagocytosis, fever, and inflammation.
Surface membrane barriers are the first line of defense against potential pathogens. They form a physical barrier to prevent the entry of harmful microorganisms, such as bacteria and viruses.
The skin is the most important surface membrane barrier. It serves as a waterproof layer that prevents bacteria and other microorganisms from entering the body. The mucous membranes of the respiratory, digestive, and urinary tracts also serve as a barrier, trapping and destroying pathogens before they can enter the body.
The body's non specific internal defenses include the immune system and physical barriers such as the stomach acid. The immune system is composed of white blood cells that protect the body from foreign invaders. Natural killer cells are a type of white blood cell that can quickly recognize and destroy foreign invaders. Phagocytosis is another nonspecific defense. This is the process in which white blood cells engulf and destroy pathogens.
The body can also increase its defenses by producing a fever. A fever increases the body temperature, making it harder for pathogens to thrive. Finally, inflammation is the body's response to an infection. The body releases chemicals, such as histamine, to trigger inflammation and attract more white blood cells to the area of infection.
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1/Principles in breeding for disease resistance.
2/Give examples of selecting & breeding to improve local breed productivity and adaptability of imported breeds.
The principle in breeding for disease resistance is to enhance the quality of animals or plants for this feature (disease resistance). Some examples of selecting & breeding to improve local breed productivity and adaptability of imported breeds are the adaptation of cows to tropical areas by breeding with Zebu race or the inclusion of adaptive disease resistance genes in Kagoshima Berkshire pigs from regions with endemic parasites.
What does breeding for disease resistance mean?The expression breeding for disease resistance makes reference to the introgression of genes that are beneficial in animals by genetic crosses that is aimed at selecting the most adaptive phenotypes in offspring, thereby increasing the beneficial features in the next generation.
Therefore, with this data, we can see that breeding for disease resistance is based on crosses to select the fittest phenotypes in offspring which is achieved by human selection.
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Millions of people
20,000
10,000
5,000
2,000
1,000
500
200
10
WORLD POPULATION GROWTH
Asia
Europe
1950
1960
Mexico,
100 Central America,
50 Caribbean Islands, &
South America
20
World
1970
Africa.
1980
Oceania (Australia &
nearby islands in the Pacific)
1990
United States,
Canada, & Greenland
2000
2010
Year
OA. United States
OB. Asia
OC. Europe
OD. Africa
2020
2040
2030
2050
Based on the information in the graph, which region's population will
decrease in the next 40 years?
Based on the information in the graph, the region's population which will decrease in the next 40 years is Europe and is therefore denoted as option C.
What is Population?This is referred to as the total number of organisms in an area over a given period of time and is dependent on different factors such as availability of food, disease prevalence etc.
When we observe the graph, we can deduce that out of all the continents, only the population of Europe is seen to be decreasing at the tail end which is after the duration of 40 years and is therefore the reason why it was chosen as the correct choice.
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arrange the following by putting the word inside the box in order to show how sense organs coordinate with the nervous system in giving body responses
Answer:
The answer is in the above picture.
Explanation:
All information from our environment is detected by the specialised of some nerve cells. These receptors are usually located in our sense organ such as the inner ear, the nose, the tongue and so on. So gustatory receptors will detect taste while olfactory receptors will detect smell.
b cells secrete immunoglobulins, providing immunity, while t cells directly attack pathogens or regulate other immune cells, providing _____ immunity.
T cells directly attack pathogens or regulate other immune cells, providing humoral and cellular immunity.
What are b cells?
B cells are a type of white blood cells. B cells make a type of proteins called antibodies.
They are part of the immune system that develops from stem cells in the bone marrow. B cells are also called B lymphocyte.
The antibodies created by B cells go and bind to pathogens/foreign substances, like toxins, in order to neutralize them. For example, an antibody can bind to a virus, which will prevent it from entering a normal cell and causing infection in its wake.
The B cells then secrete cytokines in order to attract other immune cells.
Therefore, t cells directly attack pathogens or regulate other immune cells, providing humoral and cellular immunity.
Learn more about T cells here: https://brainly.com/question/9875046
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