When a pathogenic strain of bacteria is combined with a live, nonpathogenic strain by Griffith, the living cells of the nonpathogenic strain become pathogenic.
In this experiment of Griffith, heat was used to destroy bacteria from the III-S strain, and the resulting byproducts were mixed with bacteria from the II-R strain. Both together killed the host, but neither one hurt the mice when used alone. The blood of these dead mice also allowed Griffith to isolate living II-R and live III-S pneumococcal strains. According to Griffith, a "transforming principle" that was somehow a part of the dead III-S strain bacteria caused the type II-R to be "converted" into the lethal III-S strain.
Who was Griffith?Frederick Griffith was a British bacteriologist known for discovering the "transforming principle" in 1928 through an experiment with bacteria which led to the understanding that DNA serves as the carrier of genetic information.
What is nonpathogenic strain?The strains of a species that are healthy without any disease are the nonpathogenic strains.
What is pneumococcal strain?The coccus bacteria that cause pneumonia are the pneumococcal strains.
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a state reached when particles continue to move in equal amounts in and out of the cell
Exоcytosis. The movement and fusion of secretory vesicles with the plasma membrane and extracellular space. Vesicles are transported to the plasma membrane by one of three exocytosis mechanisms.
Exocytosis examples include: Glucagon is transported from the pancreas into the liver, where it is further processed to facilitate absorption into the bloodstream. protein-filled vesicles are transported from T cells to virally infected cells. Through porosomes, which are secretory gateways located in the cell plasma membrane, exocytosis occurs. A permanent lipoprotein structure in the form of a cup that is located at the cell plasma membrane, porosomes are where secretory vesicles temporarily attach and fuse to release the intravesicular contents from the cell.
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Why myelinated axons conduct signals faster than Unmyelinated axons?
Answer:
it insulates the axon and assembles voltage-gated sodium channel clusters at discrete nodes along its length.
Explanation:
Myelin can greatly increase the speed of electrical impulses in neurons because it insulates the axon and assembles voltage-gated sodium channel clusters at discrete nodes along its length.
Nerve impulses in myelinated neurons leap over through the nerves rather than pass through it, shortening the path towards the axon terminal, transmit impulses more quickly than unmyelinated neurons.
What are neurons and what do they do?The basic building blocks of the nervous and brain systems are neurons, also known as neurones or nerve cells. They are now the cells that receive sensory information from the outside world give motor directions to our muscles, and transform and transfer electronic signals at each stage along the way.
Where in the body can you find neurons?The bulk of neurons in vertebrate are found in the brain's central nervous system, however some are found in outlying ganglia but so many nerve impulses are found in sensory organs like the cornea and ear.
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involuntary actions such as heart rate and breathing are controlled by the?
Answer:
The brain stem
Explanation:
Three molecules of type a, three of type b, three of type c, and three of type d are to be linked together to form a chain molecule. One such chain molecule is abcdabcdabcd, and another is bcddaaabdbcc.
a) 369,600
b) 0.0000649
Step-by-step explanation:
If all of the A's, B's, C's and D's were different, the number of ways to form a molecule would be calculated as n!. However, given that every molecule is repeat 3 times, we need to reduce the number dividing by 3! for every type of molecule.
It means that the number of ways in which we can organize n elements where not all of them are equal is calculated as:
Where k is the number of elements that are differents and are the number of times that every element appears.
Now, we have 4 different types of molecules (A,B,C,D) so k is equal to 4. Additionally, there are 3 molecules of type A, 3 of type B, 3 of type C, and 3 of type D, so and . It means that there are 369,600 ways to form chain molecules and it is calculated as:
Now, the number of ways where all three molecules of each type end up next to one another is calculated as:
Because, first we have 4 possible types of molecules to occupy the first three positions, then we have 3 possible types of molecules to occupy the following 3 positions, then we have 2 possible types of molecules and finally we have 1 possible type of molecule
So, the probability that all three molecules of each type end up next to one another is calculated as:
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Three molecules of type A, three of type B, three of type C, and three of type D are to be linked together to form a chain molecule. One such chain molecule is ABCDABCDABCD, and another is BCDDAAABDBCC.
a.) How many such chain molecules are there?
[Hint: If the three A's were distinguishable from one another --A[1], A[2], A[3] and the B's and C's and D's were also how many molecules would be there be? How is the number reduced when the subscripts are removed from the A's?
B) Suppose a chain molecule of the type described is randomly selected. What is the probability that all three molecules of each type end up next to one another (such as in BBBAAADDDCCC)?
Robert Hooke was the first scientist who coined the term ‘cell’. Which cell did he observe under the microscope? a.Fiber
b.Cork
c.Root
d.Leaf
Answer: B.Cork
Robert Hooke coined the term 'cell' after observing thin slices of cork under a microscope. Hence, cork cells were observed by Robert Hooke under the microscope.
Explanation: Hope this helps!! :))
Name five animals that use aerobic cellular respiration to live the lion king
Answer:
Simba (lion cub), Timon (meerkat), Pumbaa (warthog), Zazu (red-billed hornbill), and Rafiki (mandrill).
Explanation:
Place the following vessels in the order through which blood would pass, beginning with blood entering the systemic circuit after exiting the heart.a. Venous palmar archesb. Brachiocephalic veinc. Superior vena cavad. Brachial arterye. Basilic veinf. Aortag. Ulnar arteryh. Brachiocephalic trunki. Subclavian vein
The order of the vessels through which blood passes is the aorta, brachiocephalic trunk, right subclavian artery, right brachial artery, basilic vein, venous palmar arches, cephalic vein, axillary vein, subclavian vein, brachiocephalic vein, superior vena cava.
Blood exits the heart and enters the systemic circuit through the aorta. It then branches off into the brachiocephalic trunk which divides into the right subclavian artery and the right brachiocephalic vein. The subclavian artery branches off into the right brachial artery and the right axillary artery.
From there, the brachial artery divides off into the basilic vein and the ulnar artery. The basilic vein further divides into the venous palmar arches and the cephalic vein. The cephalic vein joins with the axillary vein to form the subclavian vein, and the subclavian vein joins with the brachiocephalic vein to form the superior vena cava.
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what types of living organisms have no genetic material at all?
There are no living organisms that have no genetic material at all. But some viruses have RNA as their genetic material instead of DNA.
All current living things, including viruses, have either RNA or DNA in their genetic makeup. That rule does not have any exceptions. However, there were no living things, not even RNA molecules, on Earth long ago. Some theorists have suggested that the first chemical reactions that led to life were self-sustaining. All multicellular organisms have DNA as their genetic material.
All living things have DNA as their genetic makeup, with the exception of RNA viruses found in their nuclei. The Watson and Crick model states that DNA is made up of two polynucleotide chains that form a double helix. The complimentary nature of the two DNA strands. DNA varies in size from one organism to another.
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as a genetic consultant, what cross would you advise the rancher to conduct to ensure that the allele causing dwarfism is eliminated from hte catle population
As a genetic consultant, I would advise the rancher to conduct a backcross.
In this cross, a homozygous dominant (non-dwarf) individual is crossed with a heterozygous individual (an individual carrying both dominant and recessive alleles for dwarfism). The offspring from this cross will be heterozygous for dwarfism and can be screened for the presence of the recessive allele.
Those individuals without the recessive allele can then be crossed back to the homozygous dominant individual to produce a population of only dominant individuals, eliminating the recessive allele causing dwarfism.
To further ensure that the recessive allele is eliminated, the process can be repeated multiple times to reduce the frequency of the recessive allele in the population. The rancher can also consider using genetic testing, such as DNA analysis, to identify individuals carrying the recessive allele and removing them from the breeding population.
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some microbial products can activate b cells without the assistance of t cells. True or false?
Yes, some microbial products can activate B cells without the help of T cells.
Some microbial antigens can directly activate B cells without the help of T cells. The ability of B cells to respond directly to these antigens provides rapid responses to many important bacterial pathogens. Repeated epitopes allow cross-linking of B-cell receptors, resulting in cell activation and proliferation. Antigens are presented from dendritic cells to activated T cells. This activates T cells, triggering CD40 ligand expression and cytokine secretion. Her B cells are then activated by released cytokines and CD40 ligation. This activates B cell proliferation and differentiation.
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What are the 3 symbiotic relationships and an example of each one?
Commensalism, mutualism, and parasitism are the three types of symbiotic relationships.
Example of commensalism:
Mites, for instance, get a "free ride" by attaching themselves to larger flying insects. Recluse crabs utilize the shells of dead snails for homes.
Example of parasitism:Roundworms, for instance, are parasites of mammals like cats, dogs, and humans. Numerous eggs are laid by the worms, which are then released into the environment through the host's feces.
Give an illustration of the symbiotic relationship.
A relationship or interaction between two or more species in the same habitat is called symbiosis. Symbiotic relationships are characterized by mutualism, colonialism, and parasitism. Mutualism: Mutualism occurs when two organisms benefit from one another.
What is a relationship that is symbiotic?Some organisms coexist and share food and shelter. Symbiotic relationship is the term for this. For instance, some fungi inhabit the tree roots. The fungus receives nourishment from the tree in exchange for its assistance in absorbing soil nutrients and water.
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explanations of addiction in terms of genetics, brain dysfunction, and biochemical patterns are termed
Genetic and biophysiological theories are explanations for addiction based on inherited traits, neurological disorders, and biochemical patterns.
How does the neurobiological theory of addiction work?With a focus on certain brain circuits, the molecular and neurochemical changes in those circuits during the transition from drug use to addiction, the stages of the addiction cycle's neurobiological mechanisms can be conceptualized as domains.According to definitions, addiction is a long-lasting, recurrent condition marked by obsessive drug seeking and usage, even when doing so has negative effects. † Due to the functional changes to reward, stress, and self-control brain circuits that are associated with it, it is regarded as a brain condition.Genetic and biophysiological theories are explanations for addiction based on inherited traits, neurological disorders, and biochemical patterns.To learn more about addiction refer to:
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Are alleles of the same gene identical?
They may be the same, yet they also frequently have minute distinctions.Alleles consequently comprise all the different gene variants.
Two alleles from the same gene are what?The genotype of a particular gene is represented by each pair of alleles.When two alleles are identical at a specific location, a genotype is said to be homozygous, and when the two alleles are different, it is said to be heterozygous.The phenotype, or the organism's outer appearance, is influenced by alleles.
How are the variations in a gene's alleles different?Alleles are variants of the same genes with a minor difference in the DNA base sequence.Each person's distinct traits are a result of these minute variations among variants of the same gene.
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HELP pls will mark you the brainliest
Answer:
Phytoplankton takes in carbon through cellular respiration.
Explanation:
Because it dissolves around 30% of the carbon dioxide that we put into the atmosphere each year, the ocean is known as nature's carbon sink. The primary factor making the ocean one of the largest carbon sinks is phytoplankton. These tiny marine bacteria and algae contribute significantly to the global carbon cycle by absorbing almost the same amount of carbon as all the plants and trees on land put together.
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which vessel is guarded by a semilunar valve at its base? A. vena cavaeB. aortaC. pulmonary veinsD. pulmonary trunk
The vessel guarded by a semilunar valve at its base is the aorta.
The aorta is the largest blood vessel in the human body, responsible for transporting oxygenated blood from the heart to the rest of the body. At its base, the aorta is guarded by a semilunar valve, also known as an aortic valve. This valve ensures that blood flows in only one direction, away from the heart and into the aorta. The valve is composed of three cusps or leaflets, which open to allow blood to flow out of the heart and close to prevent blood from flowing back into the heart. The semilunar valve plays a crucial role in maintaining blood flow and preventing backflow, thereby maintaining the proper functioning of the circulatory system.
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TRUE/FALSE. even though it leads to sickle cell disease in homozygous individuals, the allele hbs is retained in some populations because it confers resistance to for heterozygotes.
True. The allele for sickle cell disease (hbs) is retained in some populations because it confers resistance to malaria for heterozygotes.
People who are heterozygous for the hbs allele (have one copy of the normal allele and one copy of the sickle cell allele) have a milder form of the disease, called sickle cell disease, and are partially protected from the damaging effects of malaria, which is a major public health issue in some regions of the world. This is why the sickle cell disease allele has not been completely eliminated from populations over time, despite its negative impact heterozygotes on health when present in homozygous form.
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what is the importance of vitamin d synthesis in the epidermis? what is the importance of vitamin d synthesis in the epidermis? vitamin d decreases the risk from sunburn. vitamin d decreases the level of folate in light-skinned people. vitamin d increases the iron content of blood, which makes bones stronger. vitamin d converts melanin to a soluble, thus usable, form. vitamin d is required for the uptake of calcium from the diet, and thus is important to healthy bones
The importance of vitamin D synthesis in the epidermis is decreasing the risk of sunburn, increasing iron content in the blood, uptake of calcium, and making bones stronger.
4 things about vitamin DOur bones contain 99.5% of the total calcium in our body. Vitamin D helps absorb calcium. Sunlight is the main source of vitamin D. So, calcium and vitamin D work together to protect our bones, which is vitamin D promotes calcium absorption effectively while calcium helps maintain bone strength. Vitamin D not only aids bone health by helping calcium absorption but also some researchers said that vitamin D helps promote protective barriers in the skin by rapidly reducing inflammation caused by sunburn.Besides that, vitamin D is essential to absorb iron. Therefore an iron deficiency may indicate low vitamin D levels in your body.Vitamin D and folate have different sensitivities to UV rays (UVR). Vitamin D may be synthesized following UVR exposure, and folate may be degraded. A light skin tone would be expected to be correlated with higher levels of folate because the darker you are, the UV rays deplete the folate levels.Thus, vitamin D doesn't convert melanin into a soluble form and vitamin D increases the level of folate in light-skinned people.
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FILL IN THE BLANK. A dog's fur will have white patches if cells called ______ do not produce the pigment melanin.
If the pigment melanin is not produced by cells called melanocytes, the fur of a dog will have white patches.
Melanin is a stuff in your physique that produces eyebrow, eye, and skin hue. The more melanin you produce, the grim your eyes, haircut, and skin will be. The amount of melanin in your frame depends on any various determinants, containing transmission of traits from parents to offspring and in what way or manner many stars uncovering your familial community had. A dog's jacket will have silvery patches if the containers named do not produce the color melanin.
Complementation happens in the CcPp plant, showing that the mutations blocking color in the silver plants are indifferent genes. Corn kernels can have a lilac color on account of the main allele of individual deoxyribonucleic acid. Melanocyte is a very changed container that produces shade melanin inside melanosomes. This container is dark and decorated with flowers organized. Melanin results in the elementary function of melanocytes.
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in this virtual lab, you will identify the resources and process of polymerase chain reaction or pcr. introduction: 1. how many base pairs are there in the human genome?
The human genome is estimated to contain approximately 3 billion base pairs.
The human genome is the complete set of genetic information that is present in every cell of the human body. It is composed of DNA and contains all the instructions needed to build and maintain a human being. The genome is divided into 46 chromosomes, with each chromosome containing a unique set of genetic information. The total number of base pairs in the human genome is estimated to be approximately 3 billion. The human genome is the result of millions of years of evolution and is a complex set of instructions that dictate everything from our physical characteristics to our susceptibility to certain diseases. Understanding the human genome is essential for advancing our understanding of human biology and for developing new treatments for a wide range of diseases.
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If Mr. And Mr. Johnon had four children together, what color of hair would the children likely have?
Answer:
Depends on what hair color both parents have sometimes they can come looking like there grandparents its all about DNA
Explanation:
have great day
Answer: If Mr. and Mr. Johnon had brown hair the kids would have brown hair it depends on what hair color they have if one of the parents had blond hair and the other had brown then it will most likely be more brown haired kids then blond haired.
Explanation: I have my ways ;> and have a wonderful day!
what is the primary composition of the cell membrane?
The primary components of the cell membrane are phospholipids.
Fatty-acid-based lipids and proteins are one of the main components in cell membranes. The cell membrane is composed of a lipid bilayer. It has a polar head towards the outer side and it has hydrophobic tails towards the inner side.
A lipid bilayer that is semi-permeable is in the cell membrane. The cell membrane regulates the transport of materials entering and exiting the cell is regulated by the cell membrane.
Proteins and carbohydrates are also the main components in the cell membrane along with phospholipids. They are the fundamental building blocks of all cell membranes.
Plasma membranes are phospholipids, having two protein layers at two surfaces and lipid molecules in between.
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the tibialis posterior acts in two muscle actions:
The tibialis posterior acts to plantarflex the foot and invert the foot and support the medial arch. The muscles of the anterior compartment primarily antagonize the posterior compartment muscles. Collectively, the anterior muscles dorsiflex the foot at the ankle
Sort the following organisms based on their predicted sensitivities to vancomycin. Organisms (6 items) (Drag and drop into the appropriate area below)
Mycoplasma
Clostridium difficile
Viruses
MRSA
E. coli
Fungi
Sensitive: Mycoplasma, Fungi
Resistant: Clostridium difficile, MRSA, E. coli, Viruses
A popular antimicrobial medication for treating severe bacterial infections is vancomycin. It belongs to the class of antibiotics known as glycopeptides and is effective against a variety of gram-positive bacteria, such as staphylococci, streptococci, and enterococci.
Antibiotic sensitivity describes how susceptible a given strain of bacteria is to an antibiotic's effects. A number of variables, like the type of antibiotic, the existence of antibiotic resistance genes, and the particular instance, might affect a particular bacterium's sensitivity to a given antibiotic.
Regarding each of the creatures mentioned in the query:
Mycoplasma: Mycoplasmas are tiny bacteria without a cell wall, making them immune to a wide range of medications, including penicillins and cephalosporins. However, vancomycin is typically thought to be sensitive to mycoplasmas, making it a good alternative for treating infections brought on by these microbes.
Fungi: Eukaryotic organisms that are not bacteria and do not have cell walls are known as fungi. As a result, glycopeptides like vancomycin, which target the bacterial cell wall, are typically ineffective against them. However, some fungi, particularly those that cause infections in people with impaired immune systems, can be vancomycin-susceptible.
Healthcare-associated illnesses, particularly those that take place in hospitals, are frequently linked to the bacterium Clostridium difficile. Many medications, including vancomycin, are known to be ineffective against this bacteria.
Staphylococcus aureus which is methicillin-resistant is known as MRSA. As the name suggests, this bacterium is resistant to penicillin, cephalosporins, and other beta-lactam medicines. Vancomycin resistance is another characteristic of MRSA that makes treatment challenging.
Escherichia coli is a bacteria that is frequently linked to infections of the urinary system, the gastrointestinal tract, and other parts of the body. Although vancomycin is effective against some strains of E. coli, many others are resistant, making it a less desirable alternative for treating infections brought on by this bacterium.
Since viruses lack cell walls and are not bacteria, they are resistant to glycopeptide antibiotics like vancomycin. Antibiotics like vancomycin are rarely used to treat viral infections; instead, antiviral medications are.
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which common anatomical suffix suggests a membrane?
"-ium" is the common anatomical suffix suggests a membrane for "tissues" or "structures." Prefix, word root, and suffix are the three essential components of a medical term.
In the medical phrase, each component of the word has a distinct function. The suffix's goal is to give the medical phrase some kind of activity. A medical term's suffix will indicate what the term's subject is doing, what it is having done to it, or who is doing something with the term's subject. Within these three primary objectives, there are categories for the suffixes. The categories of diseases, conditions, nouns, and indications and symptoms can be used to classify suffixes.
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8!=8+7+6+5+4+3+2+1
Choose the correct answer below.
OA. True.
OB. False.
C. False. 8!= 8.7.5-4.3.2.1
OD. False. 8!=8-7+6-5+4-3+2-1
8!=8+7-6+5-4+3-2+1
For the factorial expression "8!=8+7+6+5+4+3+2+1", the correct answer is false, option B.
How to express factorials?Simply put, the factorial function multiplies all whole numbers from the chosen number down to one. In more mathematical terms, a number's factorial (n!) is equal to n. (n-1).
8! (8 factorial) is not equal to 8 + 7 + 6 + 5 + 4 + 3 + 2 + 1. Factorial is the product of all positive integers less than or equal to a given positive integer. For example, 8! = 8 x 7 x 6 x 5 x 4 x 3 x 2 x 1 = 40320.
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Hemophilia is a recessive trait carried on the X chromosome. What are the genotype and phenotype ratios of a cross between a normal woman who is a carrier for hemophilia and a man who is normal?
P——X——
Genotypic ratio?
Phenotypic Ratio?
Answer:
Explanation:
Hemophilia is a sex- linked recessive trait which means that the disease is carried on the sex chromosomes. Females are always represented as, XX. Males are always represented as XY. In this problem you had to cross a carrier female and a normal male. A carrier is a person who carries he disease but doesn't have the disease as it has another dominant allele to mask the recessive allele. Hemophilia is represented as x^r. Down below I have linked the Punnet square to represent the cross.
Genotype Ratio: 1:1:1:1
All the genotypes (actual genes present) are different in all the possible offspring.
Phenotypic Ratio: 3:1
75% of the offspring will NOT have hemophilia, however there is a 25% chance that an offspring can have hemophilia. (3 represents the offspring with hemophilia, and 1 represents the offspring with hemophilia.)
Also none of the females in this situation can have hemophilia, however, one of the females can be a carrier for the disease. One of the males, however, can inherit the disease.
compare the human’s and chimp’s teeth. how many teeth are found in each species’ maxilla?
Humans and chimpanzees have similar tooth structures, with 32 teeth in each species' maxilla (the upper jaw bone). Humans have incisors, canines, premolars, and molars, which are used for biting and chewing food. Chimpanzees have a similar set of teeth, with large canines used for biting and tearing their food.
However, there are some differences in the size and shape of the teeth between the two species. For example, human incisors are larger and more symmetrical than chimpanzee incisors, while chimpanzee canines are larger and more prominent than human canines.
These differences reflect adaptations to the different diets and feeding behaviors of the two species. The similarities and differences in teeth between humans and chimpanzees provide important insights into the evolutionary relationships between these species and the adaptations that have shaped their cranial and dental anatomy.
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what is, in the most general terms, the purpose of science?
Answer: The most general description is that the purpose of science is to produce useful models of reality
Explanation: Hope this helps!! :)) Mark Me brainliest Thanks!!, :))
In the most general terms, Science is a systematic and evidence-based approach that seeks to discover knowledge, uncover patterns, and provide explanations for the workings of the universe.
The key purposes of science can be as follows:
Understanding:
Science aims to develop a deeper understanding of how the natural world functions, including its physical, biological, and behavioral aspects. It seeks to answer fundamental questions about the origins, composition, and behavior of matter and energy, as well as the processes that govern living organisms and ecosystems.Explanation:
Science seeks to provide explanations for natural phenomena based on evidence-based methodology and logical reasoning. It involves formulating hypotheses, conducting experiments, and analyzing data to test and refine these explanations.Prediction and Control:
Through scientific understanding, scientists can make predictions about future events and phenomena. This predictive ability allows for practical applications of scientific knowledge, leading to the development of technologies and solutions to real-world problems.Thus, science is a systematic, evidence-based methodology that looks for patterns, gains information and offers answers for how the universe functions.
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Give two ways in which the composition of blood changes as it flows through the vessels labeled X on the diagram.
Answer:
as the blood vessel enters the part X lungs it becomes oxygenated
What heart structures are part of the pulmonary circuit?
Answer:
Pulmonary circulation is ordered from the right ventricle to the pulmonary arteries, through the lungs, to the pulmonary veins, and reenters the heart in the left atrium.
Explanation:
Pulmonary circulation transports oxygen-poor blood from the right ventricle to the lungs, where blood picks up a new blood supply. Then it returns the oxygen-rich blood to the left atrium.