A pedigree can be used to depict the blood type inheritance pattern within a family. Depending on the question, multiple interpretations are made using blood type pedigrees.
The dominant IA and IB alleles outnumber the recessive I allele. IA is stronger than . The individual exhibits antigens of type A. IB dominant over . The person shows B type of antigens.
The recessive allele is Antigens are not present in the individual.
It is codominant for IA and IB. Both antigen types, A and B, are present in the individual.
Genotypes
A pedigree is a visual portrayal of a family's familiar history over the years.
This illustration makes use of many symbols and numbers to
It is typically employed to trace the lineage of a certain characteristic or passion.
In order to properly analyse a pedigree, we must know that,
Members of the family
Geometrical figures are used to portray people.
"Men are squares,"Circles are womenUnborned people are rhombic in shape.People can be recognised by their names, numbers, or other characters. Phenotype/Trait Empty figures represent those who are healthy, normal, or unaffected. Those affected or mutated are shown as solid black figures. The generation Each file is identified with a roman number that denotes its generation.
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If a child inherits one dominant allele from one of their parents regadless of the other allele; this will most often result in?
Either recessive or dominant trait.
Not sure, the other allele is needed to determine.
The dominant trait expressed.
The recessive trait expressed.
Answer:
The dominant trait expressed
Explanation:
For a recessive trait to be expressed, most often you require 2 recessive alleles to show the trait however if there is 2 dominant or 1 dominant and 1 recessive allele, most often the dominant trait will show. You can also look up the punnett square for more information on how this works in practice when looking at alleles.
I don't know if I should be able to get the answer then I saw ok
What happens during the light reaction of phototsynthesis
Answer: During the light-dependent stage (“light” reactions), chlorophyll absorbs light energy, which excites some electrons in the pigment molecules to higher energy levels; these leave the chlorophyll and pass along a series of molecules, generating formation of NADPH (an enzyme) and high-energy ATP molecules.
But in simple words, the energy of sunlight is used to oxidize water.
what are your thoughts about the bioethics of CRISPR? What, if anything, do you think we should use CRISPR for? Should there be limits on CRISPR research?
1) The extent to which CRISPR use should be allowed; 2) access to CRISPR applications; and 3) if a regulatory framework (or frameworks) for clinical research involving human subjects could be able to handle.
What application of CRISPR would you deem moral?Most scientists concur that CRISPR-Cas9 should be permitted for use in developing human disease models and studying the molecular processes of diseases, but that it should be outlawed for eugenic or enhancing goals.
What dangers might CRISPR in humans present?Hazards to human health: The possibility for off-target genome editing impacts is the main concern connected to CRISPR/Cas9 technology. Human DNA can develop site-specific DNA alterations as a result of CRISPR/Cas9 technology.
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Grasshoppers and crickets have an Xo system of sex determination. Every female has two X chromosomes, whereas every male has only one X chromosome and no second sex chromosome. There are no Y chromosomes.
What sex chromosome will every ovum contain? Which parent determines the sex of the offspring in grasshoppers and crickets? Explain ...
Each of the female's eggs has one X chromosome because she is a XX. Due to his XY genetic makeup, males can produce sperm that has both X and Y chromosomes in equal amounts.
Does the sperm in grasshoppers decide the sex of both the offspring?The type of sperm cell, which may not include the X chromosome, determines the sex of the baby. Because they have two pairs of X chromosomes and are referred to as XX, female grasshoppers are gay marriage by nature. As a result, the type of genome found in the sperms determines the sexes of the kid.
What determines a grasshopper's gender?The XX/XO sex classification system is used by grasshoppers, which is the short answer to your query. Let's now talk about what the X and O represent and the way they are used to tell male versus female grasshoppers apart. As they only have one X chromosome, male grasshoppers are classified as XO.
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compare and contrast two types of plant described in this passage and how are they similar and how are they different refer to the text in your answer and explain your arguments completely
Carnivorous plants are classified into four types: Pitcher plants, bladderworts, and Venetian Flytrap
What is the distinction between a Venetian Flytrap and a solar plant?The Venus flytrap is an active companion of carnivorous plants. It is also known as Dionaea muscipla. The insects are drawn to the narrow part of this plant, which is 100 miles long and 10 miles wide, where the solar plant, an extraordinarily intelligent carnivorous plant, the sundew plant, will sprout 100 tentacles. It was following the genus Drodera.
What is the distinction between Thrower Plants and Bladderworts?It has two sorts of plants. Numerous colourful images were spread throughout the plant, and the Bladderworts were exceedingly little and resembled the sacs in which they were found. Utricularia is another name for this plant.
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Atoms are the most basic unit of matter. Two or more atoms from the same or different elements can combine to form molecules.
Cells are the most basic unit of life. Cells are made up of many different types of molecules. Which of the following accurately shows higher levels of organization within organisms, from least complex to most complex?
A.
cells → tissues → organs → organ systems → organism
B.
cells → organs → tissues → organ systems → organism
C.
cells → organ systems → organs → tissues → organism
D.
cells → organs → organ systems → tissues → organism
Answer:
THE ANSWER IS
A : cells → tissues → organs → organ systems → organism
Explanation:
Answer:
A : cells → tissues → organs → organ systems → organism is the answer
Explanation:
A sample contains 1. 67 times more 207pb than 235u. How old is the sample?
The age of the sample is approximately 4.51 billion years.
The age of a sample can be determined using the ratio of two isotopes of uranium, 235U and 207Pb, in the sample. The age can be calculated using the formula:
Age = (1 / λ) x ln (Nf / N0 + 1)
where λ is the decay constant, Nf is the current number of daughter atoms (207Pb), and N0 is the initial number of parent atoms (235U).
Given that the sample contains 1.67 times more 207Pb than 235U, we can assume that the initial ratio of 235U to 207Pb was 1:1.67. Therefore, N0 = Nf / 1.67.
The current ratio of 235U to 207Pb in the sample can be measured using various analytical techniques. Let's assume that the current ratio is 0.02.
The decay constant of 235U is 9.85 x 10^-10 per year.
Plugging these values into the formula, we get:
Age = (1 / 9.85 x 10^-10) x ln (0.02 / (1 / 1.67) + 1)
= 4.51 billion years
This is consistent with the age of the Earth, which is estimated to be around 4.54 billion years.
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Based on Henry's weight of 4000gm prior to his dehydration state, what is the expected maintenance rate (per hour) prescribed by the HCP for the intravenous fluid? (Enter numerical value only. If round is required, round to the nearest hundredth)
The expected maintenance rate prescribed by the HCP fοr the intravenοus fluid fοr Henry wοuld be apprοximately 62.5 ml/hοur.
Hοw tο calculate the expected maintenance rate fοr Henry?Tο calculate the expected maintenance rate fοr Henry, we can use the Hοlliday-Segar methοd, which recοmmends a maintenance fluid rate οf 100 ml/kg/day fοr the first 10 kg οf bοdy weight, plus 50 ml/kg/day fοr the next 10 kg οf bοdy weight, plus 20 ml/kg/day fοr any additiοnal bοdy weight.
Based οn Henry's weight οf 4000 gm (which is 4 kg), his expected maintenance fluid rate wοuld be:
100 ml/kg/day x 10 kg = 1000 ml/day fοr the first 10 kg οf bοdy weight
50 ml/kg/day x 10 kg = 500 ml/day fοr the next 10 kg οf bοdy weight
20 ml/kg/day x (4 kg - 20 kg) = 0 ml/day fοr any additiοnal bοdy weight
Sο, the expected maintenance fluid rate fοr Henry wοuld be:
1000 ml/day + 500 ml/day = 1500 ml/day
Tο cοnvert this tο an hοurly rate, we can divide by 24 (the number οf hοurs in a day):
1500 ml/day ÷ 24 hοurs/day ≈ 62.5 ml/hοur
Therefοre, the expected maintenance rate prescribed by the HCP fοr the intravenοus fluid fοr Henry wοuld be apprοximately 62.5 ml/hοur.
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Which environmental change is most likely to affect the long-term stability of an ecosystem?
A. The extinction of sea otters, a keystone species
B. Humans using sustainable farming practices to grow food
C. An increase in the number of deer being born one spring
D. A disease that kills a few individuals in a population of trees
A. The extinction of sea otters, a keystone species, is most likely to affect the long-term stability of an ecosystem.
What is an an ecosystem?An ecosystem is a community of living organisms (plants, animals, and microbes) in conjunction with the non-living components of their environment (such as air, water, and mineral soil), interacting as a system. Ecosystems can range in size from a small pond to an entire planet.
Keystone species are species that play a crucial role in maintaining the balance of the ecosystem. When a keystone species is lost, it can have far-reaching and long-lasting effects on the entire ecosystem, often causing a chain reaction of changes that can lead to the collapse of the ecosystem.
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7
(e) (i) Sucrose enters the sieve tubes in the leaves. What effect does the entry of the carbohydrate have on the water by
potential in the sieve tubes?
(ii) Explain how this effect may result in mass flow of substances in the phloem.
..[1]
Sucrose entry lowers water potential, creates pressure gradient, enabling mass flow of substances from source to sink in phloem.
(I) The section of sucrose into the strainer tubes in the leaves brings down the water capability of the arrangement in the cylinders. This is on the grounds that sucrose is a dissolvable carb that enters the strainer tubes by means of dynamic vehicle, which requires energy. The section of sucrose brings about a higher centralization of solutes in the strainer tubes, which diminishes the water potential. This makes water move into the strainer tubes from the encompassing cells by means of assimilation, bringing about a positive hydrostatic tension in the sifter tubes.
(ii) The positive hydrostatic tension made by the section of sucrose into the strainer tubes empowers the mass progression of substances in the phloem. This tension slope pushes the items in the strainer tubes, including sucrose and different solutes, from the source region to the sink region in the plant. The source is the region where photosynthesis happens, while the sink is the region where sucrose is required, like the roots or creating natural products. This peculiarity is known as mass stream or tension stream, and it considers the productive vehicle of supplements and different substances in the phloem.
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which embryonic structure produces human chorionic gonadotropin (hcg)? which embryonic structure produces human chorionic gonadotropin (hcg)? the cytotrophoblast the syncytiotrophoblast the hypoblast the epiblast
The embryonic structure that produces human chorionic gonadotropin (HCG) is the syncytiotrophoblast.
Human chorionic gonadotropin (HCG) is a hormone that is produced in large quantities during pregnancy. The syncytiotrophoblast is a structure found in the placenta that is responsible for producing and secreting HCG. HCG is produced by the syncytiotrophoblast soon after the implantation of the fertilized egg in the uterus.
It is important for the maintenance of pregnancy and plays a crucial role in early pregnancy. It helps to regulate the levels of other hormones like estrogen and progesterone that are essential for pregnancy. HCG levels in the blood and urine are used to confirm pregnancy and to monitor the health of the developing fetus.
So, the correct answer is the syncytiotrophoblast.
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Compose a 450 word report on the responsibilities of hazardous waste technicians and how they keep themselves safe during their job duties.
You may use additional resources if necessary, but be sure to include the proper citations.
Part 2
Explain the four main characteristics of hazardous waste.
Part 3
Explain four treatment options for hazardous waste.
Part 4
Describe the difference between chronic and acute exposure
Answer:
Part 1: Responsibilities and Safety of Hazardous Waste Technicians
Hazardous waste technicians are responsible for safely managing and disposing of hazardous materials. This includes identifying, collecting, packaging, transporting, and disposing of hazardous waste in compliance with federal, state, and local regulations. The job also involves monitoring and analyzing waste materials to ensure they are handled and disposed of properly.
To protect themselves from potential exposure to hazardous materials, technicians follow strict safety procedures. This includes wearing personal protective equipment, such as gloves, respirators, and coveralls, as well as using proper containment and handling techniques. They also receive specialized training on handling hazardous materials and emergency response procedures.
In addition, hazardous waste technicians must stay up to date with changing regulations and technology. This includes attending regular training and continuing education programs, as well as monitoring industry developments and advancements in waste management technology.
Part 2: Characteristics of Hazardous Waste
Hazardous waste can be defined as any material that is potentially harmful to human health or the environment. There are four main characteristics of hazardous waste: ignitability, corrosivity, reactivity, and toxicity.
Ignitability refers to materials that can easily catch fire, such as solvents and petroleum products. Corrosivity refers to materials that can erode or dissolve materials, such as acids and bases. Reactivity refers to materials that are unstable and can potentially explode or release toxic gases when mixed with other substances. Toxicity refers to materials that can cause harm to human health or the environment, such as heavy metals and pesticides.
Part 3: Treatment Options for Hazardous Waste
There are several treatment options for hazardous waste, including physical, chemical, and biological methods. Physical methods involve separating hazardous waste from non-hazardous waste, such as through filtration or evaporation. Chemical methods involve neutralizing hazardous waste through chemical reactions, such as by adding acid or base to adjust the pH. Biological methods involve using microorganisms to break down hazardous waste, such as through composting or bioremediation.
Another treatment option is incineration, which involves burning hazardous waste at high temperatures to convert it into less harmful byproducts. Landfill disposal is another option, although it is considered the least desirable due to the potential for environmental contamination.
Part 4: Chronic and Acute Exposure
Chronic exposure refers to long-term exposure to hazardous materials, such as through daily exposure in the workplace or living near a contaminated site. This type of exposure can lead to health problems over time, such as cancer, reproductive issues, and neurological disorders.
Acute exposure, on the other hand, refers to short-term exposure to high levels of hazardous materials, such as through a chemical spill or accidental release. This type of exposure can cause immediate health effects, such as respiratory distress, burns, and chemical burns.
It is important for hazardous waste technicians to be aware of the risks associated with both chronic and acute exposure, and to take appropriate measures to protect themselves and others from potential harm.
The difference between chronic and acute exposure:
Chronic exposure refers to the long-term or repeated exposure to a hazardous substance over a period of time, such as months or years. This exposure may occur at low levels, but can still lead to adverse health effects. Chronic exposure can result in diseases that develop slowly, such as cancer, reproductive disorders, and neurological damage.
Acute exposure, on the other hand, refers to short-term exposure to a hazardous substance that results in immediate and severe health effects. This exposure can occur in a single incident or over a brief period, such as hours or days. Acute exposure can lead to symptoms such as skin irritation, respiratory distress, vomiting, and even death.
In summary, chronic exposure occurs over a long period of time and can result in diseases that develop slowly, while acute exposure occurs over a short period of time and can lead to immediate and severe health effects.
the function of stomata
Answer:
The functions of Stomata are given below :
1. It helps in transpiration of water.
2. It helps in exchange of gases.
3. It helps to create an upward pull which helps in the process of absorption of water from the root.
4. It takes carbon dioxide and gives out Oxygen at the time of Photosynthesis.
5. It helps to regulate water movement through transpiration.
2. These geological features form when
one tectonic plate subducts under
another plate
Answer: volcanoes
Explanation:
this is worth 20 points pls help
The genetic substance known as messenger RNA, or mRNA, instructs your body how to produce proteins.
What is mRNA?Messenger ribonucleic acid (mRNA) is a single-stranded RNA molecule that, in molecular biology, is read by a ribosome during the protein-synthesis process and correlates to the genetic code of a gene.
mRNA is produced during transcription, when the gene is transformed into main transcript mRNA by the enzyme RNA polymerase (also known as pre-mRNA). Introns, which are sections that won't ultimately translate for the final amino acid sequence, are typically still present in this pre-mRNA. These are eliminated during RNA splicing, leaving only exons, which are the areas that will actually make the protein. The final mRNA is composed of this exon region.
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How does the International Ocean Discovery Program contribute to marine science? A. It advocates for ending all drilling on the ocean floor. B. It creates international regulations for offshore drilling. C. It collects samples of sediment from the sea floor. D. It searches for the locations of oil below the sea floor.
Answer: The International Ocean Discovery Program contributes to marine science by collecting samples of sediment from the sea floor. Option C is the correct answer. The program, which involves scientists from around the world, conducts scientific ocean drilling expeditions to collect data and samples from the ocean floor, which are used to better understand Earth's history, geology, and climate.
Explanation:
Cells blank ensure that cells are ready to progress to the next phase of the cell cycle
Checkpoint proteins ensure that cells are ready to progress to the next phase of the cell cycle.
These proteins act as gatekeepers that monitor the integrity of DNA, ensure that all required nutrients and cellular components are present, and confirm that the previous phase of the cell cycle was completed successfully. Checkpoints occur at several stages of the cell cycle, including the G1/S checkpoint, the G2/M checkpoint, and the spindle checkpoint.
If a checkpoint protein detects a problem or issue, it will pause the cell cycle, giving the cell time to resolve the issue before proceeding. This ensures that cells only divide when conditions are favorable and helps to prevent the accumulation of DNA damage or other problems that could lead to mutations or disease.
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Can you compare the energy in different types of nuts?
Answer:
yes. You can compare the different energy in all nuts, the highest amount of energy comes from Brazil nuts, pecans, and macadamia nuts, followed by almonds, walnuts, hazelnuts, and pine nuts. Pistachios and cashews are the lowest.
Explanation:
I hope this helps you!! :)
Need help with this for a science project
Answer: Proteins
Explanation:
The amount of money that a company is forced to pay as a fine or penalty typically depends on how much damage its actions and products have caused. Suppose the Environmental Protection Agency (EPA) catches a company dumping a toxic chemical into a river. Who is BEST able to assess the resulting damage to the environment without having to worry about bias? A. a scientist employed by the company who works with the chemical B. a scientist employed by the EPA who knows the river ecosystem C. an independent scientist without ties to the company or the EPA D. any scientist who is knowledgeable about this type of pollution
many bacteria that were originally classified in the genus streptococcus are now placed into two new genera, enterococcus and lactococcus. group startstrue or falsetrue, unselectedfalse
Many bacteria that were originally classified in the genus Streptococcus are now placed into two new genera, Enterococcus and Lactococcus. This statement is true.
Bacteria are microscopic, single-celled organisms that lack nuclei and organelles. They belong to the kingdom Monera, which is the simplest of the five kingdoms of life. Bacteria are divided into two groups based on their cell wall structure: Gram-negative and Gram-positive.
Bacteria are classified into different genera based on their characteristics such as structure, chemical composition, physiological characteristics, and others. Streptococcus is a genus of spherical, gram-positive bacteria that belong to the phylum Firmicutes. Many bacteria were originally classified in the genus Streptococcus but are now placed into two new genera, Enterococcus and Lactococcus.
Enterococcus and Lactococcus are two genera that were separated from the genus Streptococcus. These organisms were separated from the genus Streptococcus because of differences in their DNA sequences and phenotypic characteristics.
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Please label the terms or descriptions in the chart to assess your knowledge of the levels of the four main families of biochemicals (macromolecules). NOTE: Please roll over the empty answer boxes and use the pop-up hints to help you complete this question correctly. Exhibit 1°, 2°, 3° or Composed of nucleotides Starch Enzymes Lipids 4° structure Glucose Steroids Nucleic Acids Phospholipids Carbhohydrates Proteins Composed of amino acids DNA Triglycerides Monosaccharides RNA Disaccharides Waxes Polysaccharides Cholesterol Please move the correct terms into their corresponding empty boxes within the figure to complete the concept map. Membranes Glycerol are made of Carboxyl Alcohol Phospholipids are made of are made of Proteins Amino acids Phosphate Hydrogen R NH C Fatty Acids
The four main families of biochemicals (macromolecules) are nucleic acids, proteins, carbohydrates, and lipids.
Nucleic acids, such as DNA and RNA, are composed of nucleotides, which are made up of a phosphate group, a sugar (deoxyribose or ribose, respectively), and a nitrogenous base. DNA is composed of four nitrogenous bases (adenine, thymine, cytosine, and guanine) while RNA has adenine, thymine, cytosine, and uracil.
Proteins are composed of amino acids and form the four levels of structure: primary (linear sequence of amino acids), secondary (alpha helix or beta pleated sheet), tertiary (3D folding of the polypeptide chain), and quaternary (more than one polypeptide chain).
Carbohydrates are composed of monosaccharides (simple sugars like glucose), disaccharides (double sugars like sucrose), polysaccharides (many sugars like starch or glycogen), and polyalcohols (like glycerol).
Lipids are composed of fatty acids, alcohols, and carboxyl groups. Fatty acids are chains of hydrocarbons with a carboxyl group at one end, while alcohols have a hydroxyl group at the end. Phospholipids, which form cellular membranes, are made of two fatty acids, a phosphate group, and a hydrophilic head group.
Waxes are also lipids, composed of long chains of fatty acids with an alcohol attached to one end. Cholesterol is a lipid composed of four fused hydrocarbon rings with hydroxyl and methyl groups attached.
In conclusion, the four main families of biochemicals are nucleic acids, proteins, carbohydrates, and lipids, each composed of different components.
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reinforced, threadlike pseudopods that radiate from the cell as depicted in these illustrations of radiolarians are generally characteristic of which of the following groups of organisms exacavat
The reinforced, threadlike pseudopods that radiate from the cell as depicted in these illustrations of radiolarians are generally characteristic of the group of organisms known as Rhizarians.
Rhizarians are a diverse group of single-celled eukaryotes that are characterized by their threadlike pseudopods, which they use for locomotion and feeding.
Mostly unicellular eukaryotes make up the ill-defined yet species-rich subgroup known as the Rhizaria. They are all non-photosynthethic, with the exception of the Chlorarachniophytes and three species of the genus Paulinella in the phylum Cercozoa, but many foraminifera and radiolaria have a symbiotic connection with unicellular algae.
These pseudopods are reinforced by microtubules, which give them their characteristic appearance.
Radiolarians are one of the most well-known groups of Rhizarians, and are distinguished by their intricate and beautiful silica skeletons.
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Data table 1: lab safety equipment alternatives
(Shower or sink) (Paper towels) (Well ventilated are) (No substitution)
Eye wash staion spill containment kitm fune hood Safty gegg's
laboratory shower ______________________ __________ first aid kit
________________ kitty litter ___________________ fire extinguisher
________________ sand ___________________ spill containment kit
Shower or sink 1. Eyewash station 2. Lab shower. Paper Towels Spilt centainment. Vermiculite (hy-dorated kaminas Mg, Al iren silicate). 2. clay / Sand 3. Kitty Litter No substitution. 10 Safety goggles. 2. First aid kit 3. Fire extinguisher- 4. Spill containment kit are lab safety equipment
(Lab safety equipment alternatives)
1. Shower/Sink
Eyewash station
Laboratory shower
Drench Hoses
Self contained eye/face washes
2. Paper Towels-
Kitty litter
Sand
Spill containment kit
clay
3. Well ventilated area-
Fume hood
HEPA filters
Biosafety cabinet
Laminar flow
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Data Table 1 Lab Safety Equipment Alternatives Shower or Sink Paper Towels Well Ventilated Area No Substitution laboratory shower spill containment kit fure hood safety goggles 1 eyewash station fire extinguisher first aid kit exercise 2 Data Table 2: Sodium Hypochlorito SDS information Items SOS information
According to the passage all BUT ONE is a reason to classify viruses as living. That is they A) are capable of protein synthesis. B) contain a nucleic acid, DNA or RNA. C) response to changes in the environment. D) lack mechanisms for metabolic function
According to the passage, Option D: lack mechanisms for metabolic function is the reason why viruses are considered as living.
A virus is an infectious submicroscopic creature that only reproduces inside of live cells. All kinds of life, including plants, animals, and microbes like bacteria and archaea, are infected by viruses. It cannot be considered living so far as it lacks metabolic function.
The primary criteria used to classify viruses are features of the viral particles themselves, such as the form of the capsid, the kind of nucleic acid (DNA or RNA, double or single stranded), the replication process, the host species they infect, or the disease they cause.
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Complete question is:
Scientific researchers discovered agents that behaved like bacteria causing diseases such as rabies and hoof-and-mouth, but were much smaller. At this time it became the general view that viruses were biologically "alive." This changed in 1935 when the tobacco mosaic virus was crystallized and scientists demonstrated that the particles lacked any mechanisms necessary for metabolic function. It was determined that viruses consisted of a nucleic acid, DNA or RNA, surrounded by a protein shell and the scientific view changed: viruses are complex biochemical mechanisms but not alive. When not in contact with a host, the virus remains dormant. During this time there are no biological activities occurring and the virus is nothing more than a static organic particle. In this state viruses can remain for extended periods of time, waiting to come into contact with the appropriate host. When in contact with a host, it becomes active, reacts to its environment and/or host and directs its efforts toward self-replication. The viral goal now is to produce more viruses to attack host cells.
According to the passage all BUT ONE is a reason to classify viruses as living. That is they A) are capable of protein synthesis. B) contain a nucleic acid, DNA or RNA. C) response to changes in the environment. D) lack mechanisms for metabolic function
In how many years will the population of Schuhlsville double?
250,000 inhabitants, last year there were 12,000 new children born and 10,000 people recorded deceased
Answer:
five years
Explanation:
I don't really understand what it was asking about.
What are the different types of massage therapies called?
petrissages
Modalities
edemas
meridians
Possible Answers:
-Aromatherapy Massage Therapy
-Craniosacral Massage Therapy
-Deep Tissue Massage Therapy
-Hot Stone Massage Therapy
-Myofascial Massage Therapy
-Pregnancy Massage Therapy
you are an employee of the environmental protection agency. you are given the task of conducting risk management for spraying insecticides to kill the mosquitoes that carry west nile virus. how might you determine the proper concentration needed to kill mosquitoes? apes
To determine the proper concentration of insecticides needed to kill mosquitoes, you should consider: the type of insecticide being used, the characteristics of the environment in which it will be used, and the intended result.
First, research the type of insecticide that is most effective at killing mosquitoes that carry the West Nile virus. It is important to understand the properties of the insecticide in order to assess how it will interact with the environment.
Next, consider the environmental characteristics, such as the size of the area being treated, the amount of wind or sun exposure, and the presence of other organisms in the area. Finally, set the appropriate concentration of insecticides that is necessary to achieve the desired result: killing the mosquitoes that carry the West Nile virus.
It is important to keep in mind that the concentration needed to kill mosquitoes should not be excessive and should not cause harm to other organisms in the environment.
Therefore, it is critical to closely monitor the insecticide concentration in order to ensure that it is at an appropriate level. Additionally, it is important to assess the effectiveness of the insecticides and make changes as needed.
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in contrast to aerobic and anaerobic cellular respiration, the ending molecule (byproduct) of fermentation is... (select one or more answers.) group of answer choices organic. an enzyme. energy poor. inorganic. energy rich.
In contrast to aerobic and anaerobic cellular respiration, the ending molecule (byproduct) of fermentation is organic.
Fermentation is the anaerobic respiration in which a carbohydrate molecule is broken down into smaller molecules such as organic acid or alcohol and releases energy.
The two types of fermentation are alcoholic fermentation and lactic acid fermentation. Alcohol fermentation, carried out by yeast, produces ethanol and carbon dioxide as byproducts, while lactic acid fermentation, carried out by some bacteria and muscle cells, produces lactic acid as a byproduct.
An example of alcoholic fermentation is the production of ethanol from glucose, and an example of lactic acid fermentation is the production of lactic acid from pyruvate.
Thus, the ending molecule (byproduct) of fermentation is organic. The byproducts of fermentation include organic compounds such as ethanol, lactic acid, and carbon dioxide. Therefore, it's an organic byproduct.
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a forest found in a broad belt in northern eurasia and north america, where conifers predominate is called the
A forest found in a broad belt in Northern Eurasia and North America, where conifers predominate is called the Taiga.
The term “Taiga” comes from the Russian word for forest or woodland. It is the largest terrestrial biome on earth, covering approximately 17 million square kilometers, or 11% of the earth's land area. It is primarily found in high latitudes, just south of the Arctic tundra.
Taiga Forests are located across northern Russia, Mongolia, Scandinavia, Alaska, and Canada. There are distinct seasons in the Taiga, with long, cold winters and short summers. Due to the region's high latitude and the tilt of the earth, the sun's rays are scattered, leading to long periods of darkness during the winter.
The summer is brief and characterized by 24 hours of daylight in some locations. The Taiga is a region of coniferous trees, including spruce, pine, and fir trees. These trees have adapted to the harsh environment, with their needles remaining green all year to capture sunlight during the brief summer months.
The Taiga is also home to a variety of mammals, including bears, wolves, lynx, and moose. In the winter, some animals hibernate, while others migrate to warmer regions.
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