Answer:
Populations, species, communities, and ecosystems are all related components of the natural world. A population is a group of individuals of the same species living in the same area. Multiple populations of different species living in the same area form a community. An ecosystem is a community of living organisms and their physical and chemical environment, all functioning together as a unit.
Therefore, populations make up species, multiple species make up a community, and communities, along with their physical and chemical environment, make up an ecosystem. All of these components are interconnected and interdependent, as the interactions and relationships between individuals and species within a community affect the overall functioning and health of the ecosystem. For example, changes in population size or behavior of one species can have cascading effects on other species and the physical environment within an ecosystem.
Explanation:
Explain how chronic alkalosis could lead to demineralization of bone.
Answer:
Chronic alkalosis is a condition characterized by an increase in the pH of the blood above the normal range of 7.35 to 7.45. It can occur due to various factors, including respiratory disorders, kidney diseases, and prolonged vomiting. Alkalosis can affect the body's ability to regulate calcium and phosphorus, which are essential minerals for the growth and maintenance of bone tissue.
The pH of blood plays a critical role in the regulation of bone metabolism. Alkalosis can increase the pH of blood, which, in turn, can lead to an increase in the excretion of calcium through the urine. This increase in calcium excretion can lead to a decrease in the level of calcium in the blood, which is a condition known as hypocalcemia. The body attempts to compensate for hypocalcemia by increasing the secretion of parathyroid hormone (PTH), which is responsible for regulating calcium levels in the blood.
PTH increases calcium levels in the blood by stimulating bone resorption, which is the breakdown of bone tissue to release calcium into the bloodstream. The calcium released from bone tissue helps to restore normal blood calcium levels. However, prolonged bone resorption can lead to a decrease in bone density and strength, which can result in demineralization of bone tissue.
In chronic alkalosis, the increase in PTH secretion can lead to increased bone resorption and decreased bone density, which can result in demineralization of bone tissue. This can lead to a condition called osteopenia, which is a precursor to osteoporosis, a disease characterized by weak and brittle bones that are at a high risk of fracture.
In summary, chronic alkalosis can lead to demineralization of bone tissue by disrupting the balance of calcium and phosphorus in the body and increasing bone resorption through the actions of PTH.
Explanation:
it comes down to electrons & chemical bonding of atoms
demineralization means mineral atoms are being attracted by something else & leaving the bone
ph levels means a chemical is an acid base
pH less than 7 is acidic over 7 is a base.
forsyth.org
Alkalosis and Demineralization.
Chronic alkalosis is a condition characterized by a persistent increase in the pH level of blood (means more base) , which means the blood becomes more basic than normal. This condition can lead to the demineralization of bone due to the effect it has on the body's regulation of calcium.
The body's calcium balance is tightly regulated by several hormones, including parathyroid hormone (PTH) and calcitonin. PTH, in particular, plays a crucial role in maintaining calcium levels by stimulating the release of calcium from bone tissue into the bloodstream. However, chronic alkalosis can interfere with this process.
In chronic alkalosis, there is a decrease in the levels of carbon dioxide in the blood. This can lead to a compensatory increase in the excretion of bicarbonate ions by the kidneys. Bicarbonate ions are alkaline, and their loss from the body can help to correct the pH imbalance. However, bicarbonate ions also play a crucial role in buffering the acidity of the extracellular fluid that surrounds bone tissue. When the extracellular fluid becomes too alkaline, it can stimulate the release of calcium from bone tissue to help restore the acid-base balance. Over time, this can lead to a loss of calcium and other minerals from bone tissue, resulting in demineralization and an increased risk of fractures.
In summary, chronic alkalosis can disrupt the body's regulation of calcium, leading to an increased release of calcium from bone tissue. This can ultimately result in the demineralization of bone and an increased risk of fractures.
chatGPT
Fluid mosaic model diagram
The fluid mosaic model represents the model of the cell membrane showing the phospholipid bilayer as well as the proteins, lipids, and carbohydrates that are found on the cell membrane.
What is the fluid mosaic model?The fluid mosaic model explains a number of findings about how functional cell membranes are built.
This biological model proposes that protein molecules are encapsulated within a lipid bilayer. The membrane is flexible and flowing due to the fluid nature of the phospholipid bilayer as well as the proteins and lipids present.
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2. Igneous rocks form differently in different locations.
A. Intrusive igneous rock formation: (4 points)
Where do intrusive igneous rocks form?
• How quickly do intrusive igneous rocks cool?
physical proce
• What size is the crystal in an intrusive igneous rock?
ntary rocks forme
rocks formed through che
B. Extrusive igneous rock formation: (4 points)
• Where do extrusive igneous rocks form?
• How quickly do extrusive igneous rocks cool?
What size is the crystal in an extrusive igneous rock?
Intrusive igneous rocks form beneath the Earth's surface. These rocks are formed when magma slowly cools and solidifies beneath the surface, and the slow cooling allows enough time for crystals to grow and form.
Extrusive igneous rocks form on the Earth's surface. These rocks are formed when lava or magma erupts onto the surface and cools quickly due to exposure to air or water.
How are Intrusive and Extrusive igneous rocks formed?Intrusive igneous rocks cool very slowly due to their formation process beneath the Earth's surface. The slow cooling results in the growth of large crystals in the rock.
The crystals in intrusive igneous rocks are typically large and visible to the unaided eye. This is because of the slow cooling process, which allows for the growth of crystals over a long period of time.
Extrusive igneous rocks cool very quickly due to their formation process on the Earth's surface. Rapid cooling results in the formation of small or no crystals in the rock.
The crystals in extrusive igneous rocks are typically very small or may be absent altogether due to the rapid cooling process, which does not allow enough time for crystals to form and grow. This results in a fine-grained or glassy texture in the rock.
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What does the allele notation tt mean to geneticists?
a. two dominant alleles
b. two recessive alleles
c. at least one dominant allele
d. one dominant allele and one recessive allele
Answer:
B)
The allele notation tt means two recessive alleles to geneticists. The lowercase letter t represents a recessive allele, while the uppercase letter T represents a dominant allele. Therefore, tt indicates that an individual has two copies of the recessive allele for a particular gene. This means that the individual will express the corresponding recessive trait since there are no dominant alleles present to mask its expression.
According to the NIH, “enzymes are biological catalysts that speed up biochemical reactions in living organisms, and which can be extracted from cells and then used to catalyze a wide range of important processes.”
Which statement BEST reflects the enzyme related activity shown in the diagram above?
The effect of an enzyme in reducing the activation energy required to start a reaction.
The increase of released energy caused by the introduction of an enzyme.
The increased amount of energy supplied once the enzyme was introduced into the reaction.
The impact of increased reactants, with and without the presence of an enzyme, and the subsequent change in products.
The statement that BEST reflects the enzyme related activity described is: "The effect of an enzyme in reducing the activation energy required to start a reaction."
What is enzyme?Enzymes are biological molecules, typically proteins, that act as catalysts to speed up chemical reactions in living organisms. Enzymes work by binding to specific reactant molecules and lowering the amount of energy required to initiate the chemical reaction, thus increasing the reaction rate.
The diagram shows the energy profile of a chemical reaction with and without the presence of an enzyme. The energy required to initiate the reaction (activation energy) is lower in the presence of an enzyme.
Enzymes work by binding to reactant molecules and lowering the energy required to break bonds and initiate the reaction, thus increasing the reaction rate. The other statements do not accurately reflect the activity shown in the diagram.
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Explain which cells,tissues,or organs should be modified to lead to successful photosynthesis in animals or humans
Answer:
Photosynthesis is a process that is only possible in autotrophic organisms such as plants, algae, and some bacteria. This process involves the conversion of light energy from the sun into chemical energy in the form of glucose, which is the primary source of energy for these organisms. Animals and humans, on the other hand, are heterotrophic organisms and cannot perform photosynthesis. They rely on consuming other organisms to obtain energy.
Therefore, it is not possible to modify any cells, tissues, or organs in animals or humans to carry out photosynthesis successfully. This is because photosynthesis requires specific organelles such as chloroplasts, which are found only in the cells of autotrophic organisms. Additionally, photosynthesis requires specialized pigments such as chlorophyll, which is responsible for capturing light energy. These pigments are also found only in autotrophic organisms.
In summary, modifying cells, tissues, or organs in animals or humans will not lead to successful photosynthesis, as this process requires specific structures and pigments found only in autotrophic organisms.
how many moles/grams of NaCl are needed to make 3L of a 10M solution?
Answer:
To calculate the number of moles of NaCl needed to make a 10M solution in 3L of water, we can use the formula:
moles = Molarity x volume (in liters)
Here, Molarity = 10M and volume = 3L.
So, the number of moles of NaCl required can be calculated as:
moles = 10M x 3L = 30 moles
To convert moles to grams, we need to use the molar mass of NaCl, which is 58.44 g/mol. So, the mass of NaCl required can be calculated as:
mass = moles x molar mass = 30 moles x 58.44 g/mol = 1753.2 g
Therefore, we need 30 moles or 1753.2 grams of NaCl to make a 10M solution in 3L of water.
Explanation:
Why Is Biodiversity Important? Who Cares?
Name three ecosystem services provided by biodiversity.
Answer:
Biodiversity is important for many reasons, and many people care about it. Here are some of the reasons why:
1. Ecological Reasons: Biodiversity plays a vital role in maintaining healthy ecosystems, and it contributes to the functioning of the planet's natural systems. Biodiversity supports a range of ecosystem services that are essential to human well-being.
2. Economic Reasons: Biodiversity provides direct and indirect economic benefits, including food, medicines, and raw materials. It also contributes to the tourism industry, creating jobs and economic growth.
3. Ethical and Aesthetic Reasons: Biodiversity has inherent value, and it is essential to respect and protect the natural world for its own sake. Many people appreciate biodiversity for its beauty and wonder.
Here are three ecosystem services provided by biodiversity:
1. Pollination: Biodiversity, particularly the presence of pollinators such as bees, butterflies, and birds, plays a vital role in pollinating crops and wildflowers. Without pollinators, we would lose many of our favorite foods and beautiful wildflowers.
2. Climate regulation: Biodiversity helps regulate the Earth's climate by absorbing carbon dioxide and releasing oxygen. Forests, for example, are crucial for absorbing carbon dioxide from the atmosphere and preventing climate change.
3. Water purification: Biodiversity, such as wetlands and riparian forests, plays a critical role in filtering and purifying water, which helps maintain the quality of our drinking water sources. These ecosystems also reduce the risk of floods and droughts by regulating water flow.
Which correctly lists the three gases that are part of Earth's cycles in both the atmosphere and biosphere?
O radon, carbon monoxide, oxygen
O carbon dioxide, nitrogen, oxygen
O nitrogen, carbon dioxide, carbon monoxide
O carbon dioxide, radon, oxygen
What is used to model the movement of energy through an ecosystem? O Food Chain O Food web O Food pyramid O All of the above
Answer:
Food Pyramids.
Explanation:
To show the flow of energy through ecosystems, food chains are sometimes drawn as energy pyramids. Each step of the pyramid represents a different trophic level, starting with primary producers at the bottom. The width of each step represents the rate of energy flow through each trophic level.
A. waterfall B. well C. spring D. aquifer What do we call an area where water flows out of the ground because the land is lower than the water table?
Answer:
C. Spring
the land surface intersects the water table.
Explanation:
A spring: is a natural exit point at which groundwater emerges out of the aquifer and flows onto the top of the Earth's crust (pedosphere) to become surface water. It is a component of the hydrosphere as well as a part of the water cycle. Springs have long been important for humans as a source of fresh water, especially in arid regions which have relatively little annual rainfall.Spring water is one of Earth’s most ancient and purest forms. It is sourced from natural springs and deep underground water sources located in geologically and ecologically sensitive areas.
Explanation:
At terminal velocity, the force of air resistance pushing up on a skydiver is equal in magnitude to the force of gravity pulling down upon him. If at 5000 feet up in the air, he reaches a terminal velocity of 120 mph downward, what will his velocity be when he pulls the chute at 2000 feet?
Fnet = 0 at terminal velocity. As a result, the force of gravity (the person's weight) and the drag force on the skydiver must be equal.
What happens to a skydiver's motion when the force of gravity and air resistance are equal while they are falling?A balance of forces is reached and the skydiver stops accelerating after the force of air resistance equals the force of gravity. According to reports, the skydiver had achieved a terminal velocity.
When the object reaches the point when the force of gravity downward equals the force of air resistance upward?The force of gravity and the force of upward air resistance will eventually balance each other out. There is no longer any acceleration at this stage because the forces are balanced. The increase in speed will stop. The object has attained its maximum velocity or speed.
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As sediment is transported by erosion it can become sorted by grain size. True or false
Answer: True
Explanation: As sediment is transported by erosion, it can become sorted by grain size. The reason for this is because gravity forces the heavier particles to settle out first, while the lighter and smaller particles are carried further. This process is called sorting; sorting can render the separation of particles by grain size as it is transported by erosion.
How does the existence of a site like Cactus Hill demonstrate the challenges that archaeologists face when making theories? Write a one- or two-sentence response.
The findings of archaeologists are based on cactus uncovered across a wide region. It's not always possible to pinpoint exact dates, and scientists do not often agree on the information that the evidence reveals. It's possible for new discoveries to refute established notions.
They view Cactus Hill as important because it contradicts widely accepted theories about Paleoindian migration. The claim that members of the Clovis civilization were the first widely dispersed settlers in the Americas is known as the "Clovis first hypothesis," which the majority of anthropologists today reject.
Native American camping grounds may be found in Sussex County at the Cactus Hill Archaeological Site, which is close to the Nottoway River.
They discovered several human-made artefacts. The older the artefacts, the older they are! The ancient hunters' spearheads, known as CLOVIS points, were discovered.
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How many potassium ions move into the cell while how many sodium ions move out of the cell?
Answer:
3 sodium leave, 2 potassium enter
Explanation:
trust me
What is the crude mortality rate in this population in deaths per 10,000 per day?
(A) 303
(B) 7.6
(C) 3.7
(D) 7.7
(E) 1.9
(F) You can't tell from the information given
Answer:
you cant tell from the information given because we need the number of deaths
Explanation:
Write the name of the model that describes cell membrane’s structure.
Answer:Fluid mosaic model
Explanation:
Explain which cells,tissues,or organs should be modified to lead to successful photosynthesis in animals or humans discuss how these compare to a plants leaves
Only cells with chloroplasts—plant cells and algal (protist) cells—can perform photosynthesis. Animal cells and fungal cells do not have chloroplasts and, therefore, cannot photosynthesize
Summarize the three phases of the female's ovarian cycle.
Answer:
Follicular phase: This is the first phase of the ovarian cycle and begins on the first day of menstruation. During this phase, several follicles in the ovary begin to grow and develop. Eventually, one of the follicles becomes dominant and continues to grow while the others degenerate. The dominant follicle releases estrogen, which stimulates the endometrium of the uterus to thicken.
Ovulatory phase: This is the second phase of the ovarian cycle and occurs around day 14 of a 28-day cycle. The dominant follicle ruptures and releases a mature egg, which is swept into the fallopian tube. This is known as ovulation.
Luteal phase: This is the final phase of the ovarian cycle and begins after ovulation. The ruptured follicle transforms into the corpus luteum, which produces progesterone. Progesterone prepares the uterus for pregnancy by thickening the endometrium and preparing it to receive a fertilized egg. If fertilization does not occur, the corpus luteum degenerates, and the levels of estrogen and progesterone decrease, leading to menstruation and the start of a new ovarian cycle.
Explanation:
3. Pyroclastic flows are highly explosive and dangerous.
A. What would be the viscosity of magma if it results in a pyroclastic flow? (3 points)
B. What is the silica content of magma that would result in a pyroclastic flow? (2 points)
Magna with a pyroclastic flow would have a high viscosity. B. The magma that would cause a pyroclastic flow typically has a high silica content—usually more than 70%.
Pyroclastic flows: what are they?During an eruption of a volcano, pyroclastic flows are swift currents of hot gas and volcanic matter. They are capable of traveling at extremely high speeds and can pose a significant threat to anything in their path.
What kind of volcanic eruption is affected by magma viscosity?The magma's resistance to flow is measured by its viscosity. Magma with a high viscosity that is thick and sticky tends to hold gas bubbles inside, resulting in explosive volcanic eruptions. Typically, pyroclastic flows are associated with silica-rich, highly viscous magmas that hold gas bubbles that rapidly and violently expand during an eruption.
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what is the molairty if a solution that contains 10 g of NaCl dissolved in 150ml of water?
The molarity of the solution is 1.14 M. t is denoted by the symbol M and has units of moles per liter (mol/L).
What is Molarity?
Molarity is a useful way to express the concentration of a solution because it takes into account both the amount of solute and the volume of the solution. For example, a solution that contains 1 mole of solute in 1 liter of solution has a molarity of 1 M.
To calculate the molarity of a solution, we need to know the number of moles of solute (NaCl) and the volume of solution in liters (L).
First, let's calculate the number of moles of NaCl:
Number of moles = mass of solute ÷ molar mass
The molar mass of NaCl is 58.44 g/mol (22.99 g/mol for Na + 35.45 g/mol for Cl). Therefore:
Number of moles = 10 g ÷ 58.44 g/mol = 0.171 mol
Next, let's convert the volume of solution from milliliters (mL) to liters (L):
Volume of solution = 150 mL ÷ 1000 mL/L = 0.150 L
Now we can calculate the molarity (M) of the solution:
Molarity = 0.171 mol ÷ 0.150 L = 1.14 M
Therefore, the molarity of the solution is 1.14 M.
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How can studying individuals with damage to a particular brain region provide insight into the normal function of that region? Use an example of a region of the brain as an example as well as homeostasis terminology to explain your answer.
Evidence that the damaged area of the brain is crucial for the normal activity that is obstructed or altered is provided by brain damage that impairs behaviors, cognition, memory, or other functions.
What are homeostasis' four components?Homeostasis involves at least four interacting parts: stimulus, sensor, control center, and effector, regardless of whether the variable is kept within its usual range. The variable that is being regulated provides the stimulus.
What mechanism controls homeostasis?Feedback Control. When a receptor detects a rise in body temperature (stimulus), a signal is sent to the brain, causing it to maintain homeostasis (response). Negative feedback will cause the response to terminate once the body temperature returns to normal.
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Why is eating pizza an external source of energy for the body? Why is ATP an internal source of energy?
Answer:
Eating pizza provides the body with an external source of energy because it contains nutrients such as carbohydrates, fats, and proteins that can be broken down by the body's digestive system to release energy. Once these nutrients are absorbed into the bloodstream, they are transported to the body's cells where they are used as fuel to generate ATP (adenosine triphosphate), the primary energy currency of the body.
On the other hand, ATP is an internal source of energy because it is produced by the body's own metabolic processes. ATP is synthesized through cellular respiration, a series of chemical reactions that occur within the cells of the body. During this process, nutrients such as glucose are broken down to release energy, which is then used to synthesize ATP. Once formed, ATP can be used by the body's cells to power a wide range of biological processes such as muscle contraction, protein synthesis, and nerve impulse transmission.
In summary, external sources of energy such as food provide the raw materials that the body needs to synthesize ATP internally, which is then used as the primary source of energy for various cellular processes.
Explanation:
9. The Great Oxygenation Event was caused by
photosynthesizing cyanobacteria in Earth's early
history. What evidence do we have to support
this?
tree ring data
O increased levels of pollen
O banded iron formations
O ice core data
Nucleic acids are polymers of nucleotides. What parts of nucleotides are joined
together in both DNA and RNA to make these polymers?
The parts of nucleotides that are joined together in both DNA and RNA to make these polymers are the phosphate group, the pentose sugar, and the nitrogenous base.
What are nucleotides?Nucleotides are the building blocks of DNA and RNA. They are made up of a five-carbon sugar (deoxyribose or ribose), a phosphate group, and one of four nitrogenous bases (adenine, guanine, cytosine, and thymine). Each nucleotide is made up of a single nucleotide monomer, which is a molecule composed of a single nucleobase, a pentose, and a phosphate group.
DNA nucleotides come in four different varieties since there are four naturally occurring nitrogenous bases:
Adenine (A), Thymine (T), Guanine (G), and Cytosine (C) (C).Learn more about nucleotides here:
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Which winds would move the slowest?
A. winds from slightly high to slightly low pressure
B. winds from very high to very low pressure
C. winds from very high to slightly low pressure
D. winds from slightly high to very low pressure
Winds move from areas of high pressure to areas of low pressure in an attempt to equalize pressure imbalances.
Therefore, the speed of the wind is directly related to the pressure gradient force, which is the difference in pressure between two points divided by the distance between them.
In this context, option D, winds from slightly high to very low pressure, would typically move the fastest, as the pressure gradient force is the greatest in this scenario. Conversely, option A, winds from slightly high to slightly low pressure, would move the slowest, as the pressure gradient force is weaker in this scenario.
Therefore, the answer to the question is A, winds from slightly high to slightly low pressure, would move the slowest.
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Choose a starting point in the phosphorus cycle and describe the process you would go through to move through the entire cycle.
Living things and the earth both exchange phosphorous cycle. Phosphates are assimilated into organic molecules by plants from the earth.
Describe the phosphorous cycle.Phosphorus is typically trapped in sedimentary layers, where weathering can release it. In conclusion, phosphorus is transferred from one animal to the next in the food chain because animals eat vegetation. An animal's decomposition after death releases phosphorous into the atmosphere.
Where does the phosphorous cycle begin?The pebbles contain a lot of phosphorus. The phosphorus cycle begins in the earth's bedrock for this reason. The rocks' phosphate ions are disintegrated. These salts are swept into the earth and mixed with the soil there.
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Question:
You are a molecule of phosphorus. Choose a starting point in the phosphorus cycle and describe the process you would go through to move through the entire cycle.
15. Which sequence correctly represents the
arrangement of structures containing genetic
material, from the largest to the smallest size?
Answer:
The correct sequence that represents the arrangement of structures containing genetic material, from the largest to the smallest size, is:
Chromosomes: These are the largest structures that contain genetic material. Chromosomes are made up of DNA and proteins and are visible under a microscope during cell division.
Genes: These are segments of DNA that contain instructions for making proteins. Genes are located on chromosomes and are the basic unit of inheritance.
DNA: This is the genetic material that carries the instructions for the development and function of all living organisms. DNA is a long, double-stranded molecule made up of nucleotides.
Nucleotides: These are the building blocks of DNA. Each nucleotide is made up of a sugar molecule, a phosphate group, and a nitrogenous base. There are four types of nitrogenous bases: adenine, thymine, cytosine, and guanine.
Base pairs: These are the complementary nitrogenous bases that pair up to form the rungs of the DNA ladder. Adenine pairs with thymine, and cytosine pairs with guanine. The sequence of base pairs determines the genetic code.
Explanation:
Which of the following should be avoided in a patient with a history of severe anaphylactic reaction to sulfa medications? A. Amiloride B. Hydrochlorothiazide C. Mannitol D. Spironolactone E. Triamterene
Hydrochlorothiazide should be avoided in a patient with a history of severe anaphylactic reaction to sulfa medications. The correct option to this question is B.
Drug allergy In addition to electrolyte problems, orthostatic hypotension, hyperglycemia, and photosensitivity, hydrochlorothiazide (HCTZ) is a sulfonamide-containing medication with a long history of side effects.In patients with a history of sulfonamide allergy, the concern of hypersensitivity to loop or thiazide diuretics is raised since it is believed that there is a possibility of cross-reactivity from common sulfonamide ingredients of these drugs. Allergists are consulted in this situation.A more severe or rash-like reaction to sulfa medications is known as a sulfa allergy. From eye infections to rheumatoid arthritis, these medications can be used to treat a variety of medical conditions. (RA). Antibiotics and other medications are classified as sulfa medicines, often known as sulfonamides. Most frequently, medications cause allergies.For more information on sulfa allergy kindly visit
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What is the genotype of individual II-3? Explain why you think so.