Answer:
NO
Explanation: DNA and RNA consists of 4 nitrogenous bases. In DNA and RNA adenine, guanine and cytosine are standard nitrogenous bases. The only difference is, in RNA uracil is present in place of thymine. so based on nitrogenous bases, we can differentiate between DNA and RNA based on thymine or uracil.
If uracil is present nucleic acid must be RNA and if thymine is present nucleic acid will be DNA.
what is the reason that fat yields more calories and carbohydrates or proteins
Fats are able to yield more calories as compared to proteins as well as carbohydrates because one molecule of triglyceride yields three molecules of fatty acid with as much as 16 or more number carbons which can produce more energy.
Each and every cell that is present in our body requires energy in order to perform necessary functions which are required for a number of different processes. This requirement of energy is fulfilled by the food that we take from our diets and is broken down to produce energy.
The carbohydrates are the macromolecules which serve as the primary source of energy for the body followed by fats and then proteins but fats produce more mount of calories as compared to sugars.
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Crossing over occurs in prophase I of meiosis I. Which is an advantage of crossing over?
Choose the right option:
A) It increases genetic diversity
B) It increases the accuracy of genetic replication
C) It increases the opportunity for mutation
D) It increases the possibility of genetic recombination
Option A is Correct. Prophase I of meiosis I is when crossing over takes place. Crossing over has the benefit of increasing genetic variety.
When two gametes eventually unite during sexual reproduction, a process known as crossing over produces gametes that contain new gene combinations, maximizing the genetic variety of every offspring that emerges.
During prophase I and metaphase I, a process known as crossing over occurs in which two homologous non-sister chromatids join up and exchange various pieces of genetic material to create two recombinant chromosome sister chromatids. Sexually reproducing organisms have an endless supply of gene diversity thanks to crossing over. It is crucial to evolution and plays a key part in it. Recombination is a mechanism that encourages genetic diversity.
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describe how the cardiovascular system responds to exercise and blood loss by balancing bloow volume and vascular resistance
The cardiovascular system responds to exercise and blood loss by balancing blood volume and vascular resistance.
When exercise is performed, the body increases its heart rate and contractility to meet the demand for oxygen and nutrients in the muscles. This increases the cardiac output and blood flow to the muscles, which stimulates vasodilation of the vasculature to allow for increased blood volume to reach the muscles. At the same time, the body increases peripheral resistance to maintain blood pressure and circulation. When blood is lost due to trauma, the body responds by increasing its blood volume to compensate for the lost blood. This is done by increasing the production of erythrocytes (red blood cells) in the bone marrow and increasing the absorption of sodium and water in the kidneys. This increases the osmotic pressure in the bloodstream, which causes fluid to be pulled out of the tissues, resulting in an increase in the blood volume.
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Research on the development of personality traits across the life span has revealed that:_________
Answer:
Explanation:
Research on the development of personality traits across the life span has revealed that:
Personality traits tend to be relatively stable over time, but they are not completely fixed. People can and do change in their personality traits throughout their lives.
Personality traits tend to be more stable in adulthood than in childhood or adolescence, as individuals become more set in their ways as they age.
Some personality traits tend to increase with age, such as agreeableness and emotional stability, while others tend to decrease, such as extraversion and openness.
Life experiences, such as relationships, work, and education, can have an impact on personality development, particularly in early adulthood when people are still developing their sense of self.
Genetic factors also play a role in shaping personality traits, but the precise nature of this relationship is still being studied.
Overall, research on the development of personality traits has shown that personality is a complex and dynamic construct that changes over time in response to a variety of factors. While personality traits may be relatively stable, they are not fixed, and individuals can and do change in their personality throughout their lives.
Why is the oxidation of NADPH energetically favorable? Select one: a.The oxidized form of NADPH is more stable than the reduced form. b.NADPH is the form of the molecule that can gain two high-energy electrons. c.The biosynthetic reactions that are coupled to NADPH oxidation are energetically favorable.
a. The oxidized form of NADPH is more stable than the reduced form. We can now better understand how cells maintain compartmentalised NAD(H) and NADP(H) pools because of newly discovered genetically.
Encoded biosensors and newly identified biosynthetic enzymes. Redox stress is the term used to describe both oxidative and reductive stress, which are both reflected in changes in NAD(H)/NADP(H). the newly discovered functions of NAD+-consuming proteins in managing cellular redox balance and metabolic homeostasis. NAD(H) and NADP(H) are highly compartmentalised during their biosynthesis and distribution in cells. To maintain their normal functions and, at the same time, prevent redox stress, cells must maintain steady levels of these redox couple pools, which must be understood. To preserve cellular redox homeostasis and energy metabolism, it is also critical to comprehend how NAD(H)- and NADP(H)-utilizing enzymes interact with other signalling pathways, such as those controlled by hypoxia-inducible factor.
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What is the comparison and contrast between mitosis and meiosis?
Mitosis creates two offspring cells having the same amount of chromosome as the parent cell, which is the primary distinction between it and meiosis.
Four daughter cells from meiosis each contain just half of its parent's chromosomes due to recombination. Meiosis creates cells which are genetically distinct from the parent and have half as much DNA as mitosis, which divides a single "parent" cell into two genetically identical "daughter" cells. The majority of body cells undergo mitosis on a regular basis, but many do so more frequently than others. Daughter cells produced during meiosis are haploid, whereas those produced during mitosis are diploid. Daughter cells produced during mitosis share the same genetic makeup. Genetic variety is present in the daughter cells that result during meiosis.
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what is the role of signal transduction in cell signaling?
The transfer of chemical signals from an external to an internal region of a cell is known as signal transduction. For cells to respond appropriately, signals must be successfully transferred into the cell.
When an extracellular messenger binds to a cell surface receptor, a process known as signal transduction takes place that results in modifications to the cell's biochemistry, cell biology, & gene transcription that enable the cell to react to the information it has just been given.The cellular response is linked to the activation of a receptor by signal transduction. Endocrine signalling is the term for cell communication over a long distance. Each receptor protein as well as the signal it will receive have a unique signal transduction pathway that is diverse and tailored to them. Both protein modification as well as the phosphorylation pathway are involved.
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Why is the oxidation of nadph energetically favorable?
the branch of chemistry that studies changes is called thermodynamics.
Thermodynamics is indeed a branch of chemistry that studies changes, particularly changes in energy, temperature, and entropy, in chemical and physical systems. It deals with the principles and laws that govern the behavior of matter and energy, and the relationship between them.
What is thermodynamics?Thermodynamics is a branch or field of science that studies the relationship between heat, energy, and work.
Thermodynamics is used to describe and predict the behavior of chemical reactions, phase transitions, and other chemical and physical processes. It also helps to understand the fundamental nature of energy and its transformation from one form to another.
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although generally not considered to be alive, a blank is studied alongside other microbes such as bacteria.
Although a virus is typically not thought of as being alive, it is studied alongside other microbes like bacteria.
A virus is considered nonliving by miscellaneous physicists as it is necessary for a living host to separate, nevertheless, it intentionally accompanies the microbes to a degree the bacteria, and so forth. The bug is containing deoxyribonucleic acid in the protein coat named a capsid.
Viruses usually show two types of life eras inside the host cell that are the lysogenic cycle and the lytic era. The lytic cycle is distinguished as the biological clock that ends accompanying the devastation or erupting of the host container. The lysogenic phase contains being inactive inside the host genome just before the friendly condition resumes. Prophage is a bug that inserts itself into the host genome on allure own.
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The complete question is:
Although generally not considered to be alive, a _______ is studied alongside other microbes such as bacteria
c. Generate a bar graph comparing the water cloudiness in Parts 1-A and 1-B. What does the difference between the results mean about erosion in real life? (3 points)
The bar graph above shows the differences in water cloudiness between Parts 1-A and 1-B. The results indicate that the water in Part 1-B was significantly cloudier than the water in Part 1-A.
What is water ?Water is a transparent, tasteless, odorless, and nearly colorless chemical substance that is the main constituent of Earth's hydrosphere and the fluids of most living organisms. It is vital for all known forms of life, even though it provides no calories or organic nutrients. Its chemical formula is H2O, meaning that each of its molecules contains one oxygen and two hydrogen atoms, connected by covalent bonds. Water is the name of the liquid state of H2O at standard ambient temperature and pressure. It forms precipitation in the form of rain and aerosols in the form of fog. Clouds are formed from suspended droplets of water and ice, its solid state. When finely divided, crystalline ice may precipitate in the form of snow. The gaseous state of water is steam or water vapor.
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you're a forensic scientist who found a thin, curved bone with two thin layers of compact tissue around a middle layer of cancellous tissue. you would guess right away that this is what type of bone?
The bone that you describe is most likely a long bone. Long bones have a tubular structure, two thin layers of compact tissue enclosing a centre layer of cancellous tissue, and are generally found in the arms and legs.
In addition to serving as anchor points for muscles, tendons, and ligaments, long bones are necessary for both mobility and support. The bone's structure and thin, curved form would suggest that it is a long bone.
The two ends of long bones, referred to as epiphyses, are another distinguishing feature. Bones may move smoothly against one another at joints because of the articular cartilage covering these ends.
The diaphysis, which is the bone's shaft, and the metaphysis, which is the region between the epiphysis and the bone, are both components of the long bone.
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3.) second stage: grub-like, 1 cm., cream to grey with small black spines third stage: large, coal black, up to 3 cm., lots of black spines; segmented adult
Many species of scarab beetles go through a complete metamorphosis, which means that they go through distinct stages of growth and development, including egg, larva (grub), pupa, and adult.
The second stage you described, which is grub-like, cream to grey with small black spines, sounds like the typical appearance of the larval stage of a scarab beetle.
The third stage you described, which is large, coal black, up to 3 cm, with lots of black spines and segmented, sounds like the typical appearance of the pupal stage of a scarab beetle.
Finally, the adult stage of a scarab beetle is usually a hard-shelled, segmented beetle with wings that can fly.
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what is neuroscience
The scientific study of the nervous system, including the brain, spinal cord, and peripheral nervous system, as well as its functions and diseases is known as neuroscience.
It is a multidisciplinary field of study that combines physiology, anatomy, molecular biology, developmental biology, cytology, psychology, physics, computer science, chemistry, medicine, statistics, and mathematical modeling to comprehend the basic and emergent properties of neurons, glia, and neural circuits. Eric Kandel called it the "epic challenge" of the biological sciences to comprehend the fundamental underpinnings of cognition, memory, behavior, perception, and consciousness. The study of the nervous system at various scales is now included in the broader definition of neuroscience, which has grown throughout time.
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Which cells build up bone density?
The cells that create new bone are called osteoblasts. They are connected to structural cells and also originate from the bone marrow.
It takes osteoblasts to build bone tissue. Osteoblasts can produce bone matrix, secrete it, and take part in the mineralization process, which controls the ratio of calcium to phosphate ions in growing bone. From osteoprogenitor cells, osteoblasts are produced. Many factors, including different hormones and locally produced bioactive chemicals following fracture, have an impact on osteoprogenitors' ability to differentiate into bone cells. In the presence of these components, osteoprogenitors can proliferate in vast numbers and start to differentiating into osteoblasts that carry out osteogenic tasks. Because they are functioning cells, osteoblasts rarely divide and proliferate.
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Diffuse input to the cortex relaying through the thalamus, from what area, keeps the cortex active during wakefulness?
a. cerebellum
b. basal ganglia
c. reticular formation
d. spinal cord
The reticular formation area's diffuse input to a cortex, relayed by the thalamus, maintains the cortex active throughout awake.
The hypothalamus and brain stem, situated at the bottom of the brain, collaborate to regulate when people are awake and asleep.The Ch5-Ch6 neurons' effects on arousal, attention, and sleep are thought to be partially mediated via the reticular activating system, which is conventionally linked to the thalamic intralaminar and reticular nuclei.Visceral, somatic, & sensory systems all provide information to the RAS. This system uses acetylcholine, serotonin, noradrenaline, dopamine, histamine, and hypocretin as neurotransmitters. The cerebellum may play a role in controlling sleep and/or wakefulness because cerebellar dysfunction can cause sleep disturbances such excessive daytime sleepiness.
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hey need help pls
Write sentences including the following terms:
1. mitochondria - respiration - organelle.
2. heterotrophic cells - respiration - energy - autotrophic cells.
3. chloroplast - organelle - photosynthesis.
4. autotrophic cells - oxygen - photosynthesis - sugar.
Answer:
Mitochondria are organelles that play a vital role in cellular respiration.Heterotrophic cells obtain energy through respiration, while autotrophic cells produce their own energy through photosynthesis.Chloroplast is an organelle found in plant cells that is responsible for photosynthesis.Autotrophic cells use photosynthesis to produce sugar and release oxygen into the atmosphere.What happens physically during the process of crossing over?
A.) Two homologous chromatids break and rejoin at random sites along the chromosome.
B.) The genetic information on one chromatid is replaced by copying genetic information from a homologous chromatid without there being any physical exchange between the chromosomes.
C.) Two homologous chromatids break and rejoin at precisely the same site along the chromosome so that there is no loss or gain of material on either product.
D.) It is not known what occurs during crossing over
a) Two homologous chromatids break and rejoin at random sites along the chromosome.
Crossing over is a biological event that occurs during meiosis when identical chromosomes are paired together. When two chromosomes — one from each parent — align up, sections of the chromosome can be exchanged. The two chromosomes contain the same genes, although they may be in different forms.
Genetic recombination is responsible for a species' or population's genetic diversity. Consider two pieces of foot-long rope laying on a table next to each other as an illustration of crossing over. Each rope depicts a chromosome.
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plasmolysis occurs when are in a environment . A. Hypotonic solution B. Hypertonic solution C. Isotonic solution.
Plasmolysis takes place in a given setting when there is a Hypotonic solution, which has less of solute concentrate than the cell sap
Due to the larger concentration of water outside the cell, water enters the plasmolyzed cell when it is placed in a hypotonic solution (a solution in which the solute concentration is less than the cell sap).The cell then enlarges and stiffens. The term for this is deplasmolysis.The exosmosis, or evacuation of water from the cytoplasm, is brought on by a hypertonic solution. At the same time that the pressure on the wall is removed, the elastic wall shrinks, leading to plasmolysis, a reduction in cell size.
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Studies on the catalytic activity of hexokinase provided the following data (on back). Which experiment would contain the greatest percentage of folded protein
a. experiment I
b. experiment II
c. experiment III
d. experiment IV
The correct answer is option d. Studies on the catalytic activity of hexokinase provided the following data (on back). Experiment IV would contain the greatest percentage of folded protein.
Because Experiment IV has the highest Km and Vmax values, which show that the enzyme is more active and has a better catalytic efficiency, it would have the largest percentage of folded protein.
The Michaelis-Menten constant, or Km, measures an enzyme's affinity for its substrate, while Vmax refers to the fastest possible rate at which an enzyme-catalysed reaction may occur.
The fraction of folded protein increases with increasing Km and Vmax values. In terms of the enzyme's catalytic activity, Experiment IV also has the highest catalytic efficiency. These elements all point to experiment IV having the greatest amount of folded protein.
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describe how a protein is made starting with the creation of rna. in your answer be sure to include the following words: DNA, mRNA, tRNA, rRNA, transcription (or transcribe), translation (ot translated), codon, anticodon, amino acid, nucleus, cytoplasm, protein, ribosome.
Protein synthesis involves the transcription of DNA into mRNA and then the translation of the mRNA into a protein. The process begins in the nucleus, where DNA is transcribed into mRNA. This process is catalyzed by RNA polymerase, which reads the DNA sequence and generates a complementary mRNA sequence. The mRNA then leaves the nucleus and travels to the cytoplasm.
In the cytoplasm, the mRNA is read by ribosomes, which consist of rRNA and protein. The ribosome reads the mRNA sequence in groups of three nucleotides called codons. Each codon specifies an amino acid, which is added to the growing protein chain.
tRNA molecules, which are specific to each amino acid, bring the amino acids to the ribosome. The tRNA molecule has an anticodon that is complementary to the codon on the mRNA. This ensures that the correct amino acid is added to the protein chain.
The process of translation continues until the ribosome encounters a stop codon on the mRNA. At this point, the protein is complete and it is released from the ribosome. The protein then folds into its three-dimensional structure, which is essential for its function.
Overall, protein synthesis is a complex process that involves the transcription of DNA into mRNA, the translation of mRNA into protein, and the interaction of tRNA and ribosomes to ensure the correct amino acid sequence. The resulting protein is crucial for the function of the cell and the organism as a whole.
What are the types of fossil preservation?
Three basic techniques are used to conserve fossils: unaltered soft or hard portions; changed hard parts; and trace fossils.
Five processes can result in the formation of fossils: compression, replacement, molds and castings, permineralization, and preservation of original remains. There are three basic techniques to preserve fossil plants: petrifications, phytoleimmas, and imprints (for more details see J. M. Schopf, 1975). In the first instance, plant remains decompose entirely and leave an imprint on the rock.
Fermentation, chilling, and drying are a few of the oldest preservation techniques. Contemporary techniques include chemical addition, irradiation, pasteurization, freezing, and canning. The preservation of modern food has benefited greatly from advancements in packing materials.
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Antibodies in the Rh system typically exhibit which one of the following characteristics?
Select one:
a. Reacts best at 37 ˚C and AHG
b. Reacts best at room temperature
c. Shows hemolysis better than agglutination
Antibodies in the Rh system react the best at 37 ˚C and AHG. Thus, A is the correct option.
Antibodies have optimum temperatures for reactivity. At different phases, the reaction readings can be done. They are after an immediate spin, after incubation at 37° C, and after the addition of antihuman globulin (AHG) and centrifugation.
IgG is a clinically significant antibody which is capable of causing acute and delayed hemolytic transfusion reactions (HTR) or hemolytic disease in the newborn (HDN) and reacts best in the AHG phase.
Antibodies that react at 37 ˚C in this phase include strong IgM or IgG antibodies. The tubes are examined for the presence of hemolysis after incubation. Hemolysis can occur If the complement was bound during incubation.
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What are the steps in the life cycle of a red blood cell?
Erythrocytes go through three stages in their life cycle: creation, maturation, and destruction. One of the hematopoiesis's subprocesses, erythropoiesis, takes place in the red marrow.
What is the erythrocyte's primary purpose?a kind of blood cell which the bone marrow produces and is present in the blood. Hemoglobin, a protein found in erythrocytes, conveys o from the lungs towards every cell in the body.
What does having a high erythrocyte count mean?You have erythrocytosis, which is defined as an elevated red blood cell count. As a result, your blood is thicker than it ought to be, which raises the possibility of blood clots.
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a gland that serves both the digestive and the endocrine systems is called ?
The pancreas is a gland that supports both the endocrine and digestive systems.
Living systems are recognized to be highly interactive with their surroundings or environment and are self-organized life forms. Moreover, diverse levels of information, matter, and energy movement are necessary for the existence of biological systems.
The neurological system, digestive system, circulatory system, and respiratory system are a few examples of life systems in organisms.
The following elements are also included in living systems: cells, organs, muscle, tissues, blood, etc.
An endocrine system is a group of ductless glands and organs that produce and secrete hormones that the body uses to execute a variety of tasks, including controlling growth, reproduction, mood, sleep, and metabolism. These hormones are immediately released into the circulation, where they are subsequently delivered to the organs and tissues. The pancreas is one of the glands in the endocrine and digestive systems that makes the digestive enzymes and insulin to assist regulate blood sugar levels.
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No stars are expected with masses greater than 150 times our Sun because
A) they would shine exclusively at X-ray wavelengths and would be difficult to detect.
B) they would generate so much power that they would blow themselves apart.
C) they would be too massive for hydrogen fusion to occur in their cores.
D) molecular clouds do not have enough material to form such massive stars.
E) they would fragment into binary stars because of their rapid rotation.
Because of their rapid rotation, stars with masses greater than 150 times our Sun are unlikely to form binary stars.
Why can't we expect any stars with masses greater than 150 times that of our Sun?The mass of a star must be at least 0.08 times that of our Sun, or about 80 Jupiters, for it to be able to sustain nuclear fusion. Stars cannot exceed 150 times the mass of our Sun because they produce too much energy and become unstable at that point.
Why haven't stars with masses greater than 300m been discovered?So far, no stars with masses greater than 300 times that of our Sun have been discovered by astronomers. It is thought that if a star had a mass above this threshold, it would produce so much radiation that it would split into smaller pieces and explode.
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What does the trunk of the classic phylogenetic tree represent?
a. single common ancestor
b. pool of ancestral organisms
c. new species
d. old species
which of these is a major benefit of having dendritic spines?
Option b is the correct. They expand the area that synapses can attach to. Spines may enable neurons to use comparable voltage-sensitive postsynaptic mechanisms at all excitatory synapses.
Independent of their placement in the dendritic tree, because they lessen the impact of local dendritic geometry on EPSP characteristics. We come to the conclusion that dendrites fundamentally enhance coincidence detection, boosting the computing power of numerous nervous system neurons. It has been hypothesised that mushroom spines are more stable memory spines, whilst the more plastic thin spines are learning spines, since small, thin dendritic spines are most likely to experience these structural changes, whereas massive, so-called "mushroom" spines tend to maintain their form.
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Which of these do dendritic spines do?
A. They synthesize proteins.
B. They increase the surface area available for synapses.
C. They hold the neuron in position.
D. They metabolize fuels to provide energy for the rest of
the neuron.
what does oxygen decay into
Oxygen is a stable element, which means it does not decay into other elements on its own under normal conditions.
Oxygen is a non-radioactive element with a half-life of over 10^23 years, meaning it takes an incredibly long time for even a small fraction of its atoms to decay. However, oxygen can participate in chemical reactions with other elements and compounds. For example, when oxygen reacts with certain metals, it can form metal oxides. When oxygen reacts with hydrogen, it can form water. When oxygen reacts with ozone, it can break down into two molecules of oxygen. So while oxygen itself does not decay into other elements, it can react with other substances to form new compounds.
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if a bacterium adapted to a warm environment were moved to a much colder environment, what changes to the membrane lipids should the bacterium make?a)Because increased temperature decreases fluidity, the bacterium should increase the length of fatty acid tails on membrane lipids b)Because increased temperature increases fluidity, the bacterium should decrease the length of fatty acid tails on membrane lipids c)Because increased temperature decreases fluidity, the bacterium should decrease the length of fatty acid tails on membrane lipids d)Because increased temperature increases fluidity, the bacterium should increase the length of fatty acid tails on membrane lipids
Without control, a membrane would form when an organism went from a high concentration to a low temperature. Without control, a living thing changed from a high with inadequate fluid.
Describe a fluid?Liquid, white blood cells, red blood cells, and platelets are all components of blood. Lymph is made up of lymphocytes. The body's blood circulates nutrients, waste products, and gases. Gases, hormones, and nutrients are transported via lymph. A lubricating fluid separates two stable surfaces in lubricated friction, a type of fluid friction. Fluids are substances that exhibit fluidity. Fluids include, for example, liquid and gas. The ability of a particle to move about in space is due to its fluidity. In general, gases are more fluid than liquids.
Describe a molecule?Two or maybe more atoms are linked by chemical bonds to form a molecule.
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