The peripheral nervous system is made up of

Answer:

Isometric contraction

Explanation:

The length of the muscle is changed during contraction only when the muscle tension during contraction can outstand the resistance exerted by the object to be lifted.  

During isometric contractions, the muscle tension is not sufficient to exceed the resistance of the object. Hence, there is no change in the length of the muscle. The isometric contraction does not bring about any body movements.  

Isometric contractions are the type of muscle contractions where the muscle fibers do not shorten. Despite the muscle producing tension, there is no movement because the force produced can't overcome the resistance of the load. Unlike isotonic contractions where muscle length changes to move a load, in isometric contractions the goal is often to remain stationary.

The type of contraction in which the muscle fibers do not shorten is called an isometric contraction. This type of contraction involves the muscle producing tension without changing the angle of a skeletal joint. Despite the muscle tension, there is no movement of the load, as the force produced cannot overcome the resistance provided by the load. This is because sarcomere shortening and increasing muscle tension are involved, but the goal is to remain stationary and not produce movement. Isometric contractions are crucial in daily activities such as maintaining posture and providing bone and joint stability.

In contrast, there are also isotonic contractions, in which muscle length changes to move a load. This includes both concentric and eccentric contractions, where the muscle either shortens or lengthens respectively.

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Answer: a.The individual always has the biometric in their possession.

Explanation:

Biometrics is a term that is used for the technology that is used to measure the bodily features and making a calculation on that basis. It is a method that can be used for the purpose of identification and authentication for the purpose of access control.

Among the given options, a.The individual always has the biometric in their possession. is the correct option. This is because of the fact that biometric measurements can be based upon physical characteristics such as fingerprints, retinal scans, and facial recognition. These features are common and unique to every human being. Hence, biometric system can be advantageous for physical access control.

Answer:

BLOOD PATHWAY:

Body > superior and inferior vena cava > right atrium > tricuspid valve > right ventricle > pulmonary semilunar valve > pulmonary artery > lungs > pulmonary vien > left ventricle > bicuspid/mitral valve> left ventricle > Aortic semilunar valve > Aorta > Body

The pathway goes like this:

From the body (we don't say first because this is a cycle), unoxygenated blood collected goes to the heart via the INFERIOR and SUPERIOR VENA CAVA then it empties into the RIGHT ATRIUM from there it passess through a valve called TRICUSPID valve, which prevents backflow of blood to the right atrium. The blood goes to our first pumping chamber, RIGHT VENTRICLE. The right ventricle pumps the blood through the PULMONARY SEMILUNAR VALVE which leads to the PULMONARY ARTERIES, which happens to be the only arteries that carry unoxygenated blood. From there it goes to the lungs to pick up oxygen and rid itself of carbon dioxide. The blood then goes back into the heart via the PULMONARY VEINS and like the latter, they are the only veins that carry oxygenated blood.

The blood then goes back into the heart, emptying into the LEFT ATRIUM. From there it goes through the BICUSPID VALVE or MITRAL VALVE and to the last and thickest pumping chamber, the LEFT VENTRICLE. The left ventricle pumps the blood through the AORTIC SEMILUNAR VALVE which opens out to the AORTA.

And at last, it goes back to your body.

Blood flows from the superior vena cava into the right atrium of the heart, from there it flows through the tricuspid valve to the right ventricle, and then to the lungs. After gas exchange in the lungs, blood returns to the heart's left atrium and then into the left ventricle through the mitral valve. Finally, the blood is pumped from the left ventricle through the aortic valve to the aorta and to the rest of the body.

The pathway of a red blood cell as it passes into and through the heart, to the lungs, back to the heart, and to the body starts in the superior vena cava. From the superior vena cava, blood enters the right atrium of the heart, passes through the tricuspid valve, and moves into the right ventricle. The blood is then pumped through the pulmonary valve into the pulmonary arteries, which lead to the lungs. Here, gas exchange occurs, oxygenating the blood. The oxygen-rich blood then returns to the heart through the pulmonary veins, entering the left atrium. It then goes through the mitral valve into the left ventricle. From the left ventricle, blood is pumped through the aortic valve into the aorta, the body's main artery. The blood is then transported to the rest of the body through a system of arteries, arterioles, and capillaries. Once the oxygen is delivered, the blood returns back to the heart via capillaries, venules, veins and finally the superior and inferior vena cava, ready to begin the journey again. Following this path, one can understand the flow of blood in the pulmonary and systemic circuits.

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Answer:

Proteins are broken down into amino acids, carbohydrates into simple sugars and fats into simple fatty acids.

Explanation:

Digestion may be defined as the process of breakdown of biomolecules into simpler substances with the help of enzymes and digestive juices.

The process of breakdown of carbohydrates starts in the mouth with the help of enzyme salivary amylase. Carbohydrates are broken into simple sugars and later absorbed by the body. The absorption and digestion of proteins is completed into the small intestine.  Proteins are broken converted into amino acids after complete digestion. Lipase enzyme breaks down the fat into simple fatty acids and glycerol.

In digestion, proteins, carbohydrates, and fats are broken down into amino acids, monosaccharides, and glycerol and fatty acids respectively, which are then absorbed by the body.

During the process of digestion, different types of macromolecules are broken down into their smaller components for absorption. Proteins are broken down into amino acids, carbohydrates into monosaccharides, such as glucose, and fats, or triglycerides, are broken down into glycerol and fatty acids. This breakdown is crucial for the molecules to be small enough to be transported across the mucosal membrane and be utilized by the body.

The complex carbohydrates are first acted upon by enzymes like amylase, which break them down into simpler sugars, or monosaccharides. Proteins are degraded into amino acids by enzymes such as trypsin, pepsin, and peptidase. Lipids are broken down by lipase into glycerol and fatty acids. The smaller molecules resulting from the actions of these enzymes can then be absorbed by the cells lining the small intestine and used for various bodily functions including energy production, cellular repair, and growth.

Answer:

Liver cells.

Explanation:

Liver maintains the carbohydrate metabolism of the body. Glucose can be stored in the liver in form of glycogen.

Pancreas releases the hormone insulin and glucagon. When the blood glucose levels are high, the insulin hormone is released by pancreas and liver cells convert glucose into glycogen. When the blood glucose level are low, the pancreas releases the hormone glucagon. The liver cell under the hormone influence, breaks down the glycogen and releases glucose. This maintains the blood glucose level in the body.

Liver cells respond to glucagon by breaking down glycogen into glucose, which is then released into the bloodstream to raise blood glucose levels.

The cells in the body that respond to glucagon by breaking down glycogen and releasing glucose are primarily liver cells. Glucagon is released from the alpha cells of the pancreas, particularly when blood glucose levels are low. It acts on the liver cells to stimulate the conversion of glycogen into glucose through a process known as glycogenolysis. Additionally, it can promote gluconeogenesis, which is the creation of glucose from amino acids and glycerol. The glucose released by these processes is then introduced into the bloodstream to increase blood glucose concentrations and maintain normal homeostatic levels.

Answer:

correct option a

Explanation:

movement of water molecule from an area of higher concentration to an area of lower concentration

Answer:

Mechanoreceptors

Explanation:

Mechanoreceptor is a type of sensory receptor that responds against the mechanical pressure. These receptors are present on the hair, skin and tactile corpuscles.

Mechanoreceptors may responds against the change in pressure, detects different sounds (hearing), touch and can sense the equillibrium. These receptors transfer the mechanical information into electrical signals. Mechanoreceptors contain sensory neurons that can respond towards the external stimuli.

Thus, the correct answer is option (D).

Answer:

mechanoreceptors

Explanation:

mechanoreceptors are responsible for touch, pressure, hearing, and equilibrium.

Answer:

a. RER, microtubules, cytoplasm

Explanation:

The axoplasmic transport or axonal transport that moves the material at the rate of 1-5 mm/day is called slow axoplasmic transport. This system serves to deliver the materials required for regeneration of axons and axoplasm. It includes the movement of proteins from cytoplasm along the axon.

On the other hand, the fast axoplasmic transport moves the material at the rate of 200-400 mm/day. It serves to transport integral membrane proteins and secretory proteins formed on RER. The fast movement occurs with the help of motor proteins that move the material along the surface of microtubules present in the cytoskeleton of neurons.  

Answer:

Cancerous tissue has high mitotic index.

Explanation:

Mitotic index may be defined as the number of dividing cells divided by the total number of cells. Cell proliferation can be measured by mitotic index.

Cancerous cells are highly dividing cells and are less differentiated than normal cells. Cancer cells have higher mitotic index because the number of dividing cell is more in cancerous cell than the normal cells.

Answer:

Cancerous tissue has high mitotic index.

Explanation:

Answer:

Option (D).

Explanation:

Pesticide are the chemicals used to kill pests or other harmful organisms. They are mainly used for the safety of agriculture crops.

Pesticides are quiet useful in the agriculture fields but some organisms has shown an inherent degree of pesticide. Pesticide doesnot degrade easily and accumulate in further trophic levels in the environment. Pesticide accumulation leads to the phenomena of biological magnification.

Thus, the correct answer is option (d).

Answer:

The liver have a hepatic portal vein and a hepatic vein for blood flow and transport of nutrients.

Explanation:

Hepatic portal vein is also known as portal vein that carries blood from the organs (gastrointestinal tract, pancreas and gallbladder) to the liver. The nutrients are also transfer by the hepatic portal vein.

Hepatic vein: This vein carry deoxygenated blood into the inferior vena cava from the liver. Total three hepatic veins brings deoxygenated blood from right, left and middle part of liver.

Answer:

I think its one generation

Answer:

One generation

Explanation:

If two populations are merged, each with different frequencies of one allele at one location, and random mating occurs immediately; after a generation this population will be in Hardy-Weinberg equilibrium, as there were no evolutionary processes within the population and mating occurred entirely at random.

The Hardy-Weinberg equilibrium states that in a population in which crossings occur at random and over which there are no evolutionary factors, gene and genotypic frequencies remain constant over the generations.

The importance of the Hardy-Weinberg Balance for natural populations lies in the fact that it establishes a model for gene behavior. Thus, it is possible to stimulate gene frequencies and genotypic frequencies over generations and compare them with those obtained in practice. If the observed values are significantly different from the expected values, it can be concluded that evolutionary factors are acting on this population and that it is evolving. If the values do not differ significantly, it can be concluded that the population is in equilibrium and therefore not evolving.

The template strand must be the complementary DNA sequence: 3'-ATGCCTAACATTAAGT-5'

The template strand must be the complementary DNA sequence: 3'-ATGCCTAACATTAAGT-5'

Answer:

At the gym work out gaining weight needs to adjust balanced.

Healthy nutrition, exercise, sufficient sleep, and stress management are all necessary for achieving and maintaining a healthy weight. Other elements could also influence weight gain. Numerous healthful foods are part of a healthy diet.

A nutritious diet supports normal growth, development, and aging, helps people maintain a healthy body weight, and lowers their chance of developing chronic diseases, all of which contribute to overall health and wellbeing.

Physical fitness refers to a person's overall health and well-being as well as their capacity for participating in certain sports, jobs, and daily activities.

In general, healthy eating, moderate to strenuous exercise, physical activity, and adequate rest are required to develop physical fitness.

Therefore, an individual who wants to maintain weight, lose weight, or gain weight needs to adjust his/her nutrition and exercise program.

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Answer: All collagen family members consist of peptide chains arranged in a parallel chain to an axis, forming the collagen fibers.

Explanation:

The term “collagen” is used to denote a family of 27 isoforms proteins found in the connective tissues of the body. It is the most important compound in the connective tissue and is an important structural element in multicellular organisms. It contains peptide chains amino acids glycine, proline, lysine, hydroxylysine, hydroxyproline, and alanine. These chains are organized in parallel to an axis, forming the collagen fibers, that provides strength and elasticity to the structure. The collagen molecule has 280 nm of length, with molecular weight 300,000 Da, stabilized by hydrogen bridges and intermolecular bonds.

Answer:

(D) H Vacuole

Explanation:

The vacuole is the organelle of the plant which contains water reserves of the plant and essential minerals required by the plant to grow. It also helps the plant to maintain its structure and provides rigidity

HOPE IT HELPS....

Answer:

The correct answer will be option D-H.

Explanation:

The eukaryotic cells contain organelles which help in the survival of the organisms.

The plant cell contains one of the largest organelle called vacuole which helps the plant cell to store the harmful as well as useful material inside the cell. The primary molecule it stores in the water which helps in maintaining the turgidity of the cell. It is due to this turgidity that vacuole determines the shape of the cell.

Thus, option D-H is the correct answer.

Answer:

Active transport

Explanation:

The process of transport of substances that uses energy and carrier proteins of the membrane is called active transport. Amino acids can not cross the hydrophobic core of the membrane and therefore, are transported through carrier proteins. The carrier proteins transport the amino acids using energy and the process is called active transport.

Answer:

The pancreatic duct

Explanation:

The pancreatic duct is formed when the many tiny tubes from exocrine part of the pancreas are joined together. The exocrine part of the pancreas consists of pancreatic acinar cells. These cells serve to secrete the digestive pancreatic juice rich in digestive enzymes.

The pancreatic juice is released into the pancreatic duct via tiny tubes. The pancreatic duct opens into the duodenum and releases the pancreatic juice into the duodenum of the small intestine.  

Answer:

C) acetylcholine

Explanation:

Acetylcholine is an excitatory neurotransmitter secreted by motor neurons innervating skeletal muscle.

However, norepinephrine, gamma aminobutyric acid, and cholinesterase are not excitatory neurotransmitter secreted by motor neurons innervating skeletal muscle.

The excitatory neurotransmitter secreted by motor neurons that innervates skeletal muscle is acetylcholine. It is crucial in the motor nervous system with its main function being to lead to muscle contraction.

The excitatory neurotransmitter secreted by motor neurons innervating skeletal muscle is acetylcholine.

Acetylcholine plays a crucial role in the function of the motor nervous system, especially within the neuromuscular junction which is where the motor neuron and skeletal muscle connect.

Once an action potential reaches the end of a motor neuron, acetylcholine is released from the neuron and binds to receptors on the surface of the skeletal muscle. This causes the muscle to depolarize and eventually leads to muscle contraction.

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Answer:

pump blood with greater pressure

Explanation:

this is because it pump blood with greater pressure

The left ventricular wall of the heart is thicker than the right wall because it has to pump blood with greater pressure to the entire body.

The left ventricular wall of the heart is indeed thicker than the right wall. The reason for this is not to accommodate a greater volume of blood, expand the thoracic cage during diastole, or pump blood through a smaller valve. Instead, the left ventricular wall is thicker because it is responsible for pumping blood with greater pressure, option C. The left ventricle has to pump blood to the entire body, while the right ventricle only pumps blood to the lungs, requiring less pressure. Therefore, a thick muscular wall is needed on the left side to generate the necessary pressure.

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Answer:

11 year in girls and 12 years in boys

Explanation:

The volume of grey matter peaks at the adolescent age of child, however it starts growing since the childhood. It is considered that a girl’s adolescent age starts from 11 years while a boy’s adolescent age starts from 12 years. Thus, grey matter reaches at its peak when  girls reaches the age of 11 years and boy reaches the age of 12 years.

Grey matter starts declining as adulthood is reached in both male and female.

Answer:

The correct option is a. refers to differences between the sexes with regard to features such as body size

Explanation:

Sexual dimorphism refers to a specific condition in animals and plants, which includes difference in the secondary characteristics of the male and female sexes of the same species. Sexual dimorphism is seen in many animals and some plant species. The difference in the secondary characteristics includes size, color, behavior, etc.

Sexual dimorphism, a term in biology, refers to the differences in physical characteristics between males and females of the same species beyond reproductive organs. These differences may be manifested in body size, coloration, or other physical attributes. Such differences vary widely among species, and while some correlation between dimorphism and social behaviors is observed, it is not a universal rule.

Sexual dimorphism refers to differences in physical characteristics between males and females of the same species, beyond differences in reproductive organs. These differences can relate to body size, coloration, or other physical attributes. It is a product of variance in reproductive success, often driving the evolution towards larger, more decorated, or stronger males as these traits can provide them advantages in obtaining mates.

Sexual dimorphism varies widely among species. Some species display quite pronounced sexual dimorphism, such as gorillas, where the males are significantly larger than the females. Other species, such as gibbons, display a low level of sexual dimorphism, correlating with long-term monogamy. Additionally, there are some species where the usual roles are reversed, with females being larger or more elaborate than males due to variances in reproductive success. It's crucial to note that there's no universal rule linking physical traits with behavioral traits, and each species presents a unique mix of these differences.

Conventionally, in many primate societies, a higher level of sexual dimorphism is linked with stronger male dominance, rigid hierarchy, and male competition for mating. However, the correlation between size and behavioral features shouldn't be perceived as a rule, as this varies greatly depending on the species and the environmental factors at hand.

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Answer:The populations are isolated and thus do not interbreed.

Explanation:

I just took the test.

The populations are isolated and thus do not interbreed in this stage of speciation.

Speciation, the formation of new and distinct species in the course of evolution. Speciation involves the splitting of a single evolutionary lineage into two or more genetically independent lineages.

The formation of the canyon acted as a barrier that prevented any mating between the separated populations due to this population get isolated and thus dont interbreed.

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Answer:

d. It is where an artery breaks into two sets of capillaries before returning to the heart.

Explanation:

A Portal System is where an artery breaks into two sets of capillaries before returning to the heart.

Answer: False

Explanation: The COMPLEMENT SYSTEM consists of proteins synthesized in the liver. They are activated by inespecific harmful substance (antigen) and begins a cascade of proteins that finally forms an attack complex against bacteria.

The COMPLEMENT is part of the INNATE IMMUNITY, because it is an inherent response, something all humans born with, and it is part of the first defense barrier against any antigen. Part of the innate immunity are too: natural killer cells, neutrophils, monocytes, dendritic cells and macrophages.

On the other hand, the ADAPTATIVE IMMUNITY, is the response that the body develops after being exposed to an antigen before. It is like something that the body recognizes, and then "learns" how to act against it. Part of the adaptative immunity are: lymphocyte T and B, and the antibodies (substances called Immunoglobulins). The immunoglobulins (Ig) are glycoproteins present in the blood.

A controlled experiment in biology includes at least two groups, one of which does not receive the experimental treatment. It is repeated many times to ensure accurate results.

In biology, a controlled experiment includes at least two groups, one of which does not receive the experimental treatment. This helps to determine the effects of the treatment compared to a control group. It is important to repeat the experiment many times to ensure accurate results and account for any variability.

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A controlled experiment in biology uses at least two groups; an experimental group and a controlled group. The only variable that differs between these groups is the one being tested. Examining the results across these groups allows researchers to assess the impact of this variable.

A controlled experiment is a vital concept in scientific research. It involves at least two groups: the experimental group and the control group. The experimental group receives the experimental manipulation, which is the treatment or variable being tested, while the control group does not. The purpose of these two groups is to isolate and examine the effects of one variable.

In a controlled experiment, the one and only variable that differs between these groups is the independent variable, i.e., the treatment being tested. Observing changes in the dependent variable across these groups then allows the researcher to draw conclusions about the influence of the independent variable. Thus, if the results of the experiment reveal significant differences between the two groups, this is attributed to the impact of the independent variable.

These experiments can be lab-based or field-based depending on the nature of the study. Careful design, including random selection and assignment, along with proper ethical considerations are crucial for such experiments to yield reliable and accurate data.

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Answer:  (SL) Semilunar Valves

Explanation:

The tricuspid and mitral valves close when the ventricles contract and their cusps fill with blood, preventing backflow into the atria.

When the ventricles begin to contract, the pressure inside them rises, causing blood to flow toward the area of lowest pressure, initially in the atria. This backflow of blood causes the cusps of the tricuspid and mitral (bicuspid) valves to close. These valves are tethered to papillary muscles by the chordae tendineae. As the ventricles contract, so do the papillary muscles, which creates tension on the chordae tendineae.

This tension prevents the cusps of the atrioventricular valves from being blown back into the atria. In contrast, when the ventricles relax, the pressure decreases, which can cause blood to fill the cusps of the semilunar valves (pulmonary and aortic valves) and close them, preventing backflow into the ventricles. This closing of semilunar valve cusps with blood produces an audible sound during the cardiac cycle.

Answer:

[tex]96[/tex]Pa

Explanation:

Let "n" represents the normal flow condition and "a" represents the abnormal flow condition.

As per continuity equation -

[tex]v_{n}*A_{n}= v_{a}*A_{a}[/tex]----------- Eq (1)

Where "v" represents the velocity and "a" represents the area of artery

Given-

[tex]A_a=\frac{A_n}{4}[/tex]

Substituting the above relation in equation (1), we get -

[tex]v_a = \frac{v_n*A_n}{A_a}\\ v_a= 4v_n\\[/tex]

As per Bernoulli's theorem, we know that -

[tex]P_a-P_n= \frac{1}{2}pv_a^2-\frac{1}{2}pv_n^2\\P_a-P_n=\frac{1}{2}p[\frac{v_a*A_a}{A_n} ]^2\\P_a-P_n=\frac{1}{2}pv_n^2[16-1]\\P_a-P_n=\frac{1}{2}*1060*(0.11)^2*15\\P_a-P_n=96[/tex]Pa

The blood pressure difference between the normal and constricted segments of the artery can be calculated using Bernoulli's equation. As the cross-sectional area is reduced in the constricted segment, the blood speed increases and the pressure decreases. The difference in blood pressures can be determined by comparing the pressure energy per unit volume in the two segments.

The blood pressure difference between the normal and constricted segments of the artery can be calculated using Bernoulli's equation, which states that the sum of pressure energy, kinetic energy, and potential energy per unit volume is constant along a streamline in an ideal fluid flow. In this case, as the cross-sectional area of the artery is reduced to one-fourth in the constricted segment, the blood speed increases. As a result, the pressure in the constricted segment decreases due to the conservation of energy. The difference in blood pressures between the normal and constricted segments can be determined by comparing the pressure energy per unit volume in the two segments.

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Answer:

A. lack both antigens A and B on their erythrocytes.

Explanation:

A person with blood type O would lack both antigens A and B on their erythrocytes.

Answer:

the activity of my protein will be highest in the presence of other protein,and not higher than my protein activity alone