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Answer:
23 grams
Explanation:
Related Questions
Throw one for the real one wanna see my grills
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Answer:
dayum
Explanation:
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Which of these phrases best summarizes Legalism?
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In DNA, a sequence of three bases is a code for the placement
of a certain amino acid in a protein chain. The table shows some
amino acids with their abbreviations and DNA codes.
Which amino acid chain would be produced by the DNA base
sequence below?
C-A-A-G - T- T - A-A-A-T - T-A
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A single gene with two alleles control variation in haemoglobin type in sheep. There are three different phenotypes corresponding to genotypes S^AS^A S^AS^B and S^BS^B respectively in a flock of 175 sheep the frequency of allele S^A was found to be 0.6 and frequency of allele S^B WAS found to be 0.4
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Populations in Hardy-Weinberg equilibrium express the same allelic and genotypic frequencies through generations. Number of individuals expressing each phenotype: 63 sheep S^AS^A, 84 sheep S^AS^B, 28 sheep S^BS^B.
What is Hardy-Weinberg equilibrium?The Hardy-Weinberg equilibrium theory states that allelic and genotypic frequencies in populations that is in equilibrium remain the same through generations. No evolutive forces are acting on these populations, so no evolution occurs.
Assuming a diallelic gene,
Allelic frequencies
The frequency of the dominant allele f(X) is pThe frequency of the recessive allele f(x) is qGenotypic frequencies
p² (Homozygous dominant genotypic frequency), 2pq (Heterozygous genotypic frequency), q² (Homozygous recessive genotypic frequency).The addition of the allelic frequencies equals 1
p + q = 1.
The sum of genotypic frequencies equals 1
p² + 2pq + q² = 1
In the exposed example,
Alleles Frequencies
S^A f(S^A) = p = 0.6S^B f(S^B) = p = 0.4Genotypes
S^AS^A ⇒ homozygousS^AS^B ⇒ heterozygousS^BS^B ⇒ homozygousWe need to get the number of animals expressing each genotype and phenotype. To do it, we just need to use allelic frequencies and calculate genotypic frequencies (p², 2pq, and q²), and then multiply these values by the total number of animals (N = 175).
Genotypic and Phenotypic frequencies
F(S^AS^A) = p² = 0.6² = 0.36
F(S^AS^B) = 2pq = 2 x 0.6 x 0.4 = 0.48
F(S^BS^B) = q² = 0.4² = 0.16
Number of individuals expressing each phenotype
S^AS^A ⇒ 0.36 x 175 = 63 individualsS^AS^B ⇒ 0.48 x 175 = 84 individualsS^BS^B ⇒ 0.16 x 175 = 28 individualsYou can learn more about the Hardy-Weinberg equilibrium at
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Complete question
A single gene with two alleles control variation in haemoglobin type in sheep. There are three different phenotypes corresponding to genotypes
S^AS^A S^AS^B and S^BS^BIn a flock of 175 sheep the frequency of allele S^A was found to be 0.6 and frequency of allele S^B WAS found to be 0.4.
Using the hardy weinberg equation calculate the number of sheep with each phenotypes in the flock show your working
What evidence do fossils provide for how life has changed throughout Earth's history?
Answers
Answer:
Fossils document the existence of now-extinct species, showing that different organisms have lived on Earth during different periods of the planet's history. They can also help scientists reconstruct the evolutionary histories of present-day species.
Explanation:
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What is metabolism ?
boaring.....
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The published data for the map distance between the gene and the centromere is 26 map units. You just calculated the map distance as 17 map units. What is the best explanation for this disparity
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Linkage maps and physical maps are NOT the same. A linkage map measures the number of recombination events in a given chromosome fragment.
A linkage map is based on the frequency of recombination events between genes or molecular markers.
This frequency indicates the number of events in which a single chromosomal fragment recombines between two or more genes or molecular markers during meiosis.
Conversely, a physical DNA map indicates the physical locations of genes (molecular markers) and nucleotide (DNA) sequences of interest, which is useful to identify genes by positional cloning.
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Burke is in the final 100 yards of a race with an opponent at his heels. His sympathetic nervous system is stimulating his adrenal medullae. Trace the sympathetic pathway from the lateral gray horn of the spinal cord to the adrenal medulla.
1. Name the sympathetic ganglia in which the preganglionic axons synapse.
2. What is different about these postganglionic cells?
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The sympathetic pathway follows the following steps:
Preganglionic axons originate from the lateral gray horn of the spinal cord at the thoracolumbar level. These axons migrate through the sympathetic chain ganglion where they form synapses with postganglionic cells.The postganglionic axons of the sympathetic ganglion chain migrate to the adrenal medulla overlying the kidney. Upon reaching the adrenal medulla, postganglionic axons release the neurotransmitter norepinephrine, activating cells in the adrenal medulla to secrete the hormones adrenaline and norepinephrine. These hormones are released into the bloodstream and travel to various organs and tissues throughout the body, where they stimulate the sympathetic nervous system's "fight or flight" response. This response prepares for physical activity by increasing heart rate, blood pressure, and blood flow to muscles, and inhibiting nonessential functions such as digestion.1. Sympathetic ganglia where preganglionic axons form synapses are known as sympathetic ganglia or paravertebral ganglia. These ganglia are found along the length of the spinal cord on either side of the spine.
2. The postganglionic cells of the sympathetic chain ganglion differ in that they are much shorter than the preganglionic axons. This allows easy access to target organs and tissues that are normally near the sympathetic chain ganglion.
Furthermore, postganglionic cells are not myelinated. That is, there is no protective cover of myelin surrounding the axon. This allows the neurotransmitter norepinephrine to be released faster and more efficiently than myelinated preganglionic axons.
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One parent has curly hair the other has straight hair in their child has wavy hair this is an example of
Answers
Answer:
incomplete dominance
HOMOLOGOUS CHROMOSOMES SEPERATE FROM EACH OTHER WHAT STAGE
Answers
Answer:
Homologous chromosomes separate from each other during anaphase I of meiosis.
Explanation:
Meiosis is a specialized type of cell division that occurs in sexually reproducing organisms. It involves two rounds of cell division, known as meiosis I and meiosis II, which result in the formation of haploid gametes (sperm or eggs) with half the number of chromosomes as the parent cell.
During meiosis I, homologous chromosomes pair up and exchange genetic material in a process called crossing over. Then, during anaphase I, the homologous chromosomes separate from each other and migrate to opposite poles of the cell. This is followed by telophase I, cytokinesis, and the formation of two new cells, each with a haploid set of chromosomes.
In contrast, during meiosis II, the sister chromatids of each chromosome separate from each other and migrate to opposite poles of the cell, resulting in the formation of four haploid daughter cells.
List three functions of ovaries
pls fast I'll mark as brainliest!
Answers
Answer:
Three functions of ovaries are listed below:
1. Oocytes (the female gamete) need to be protected and given refuge by the ovaries in order to be fertilised.
2. To create the hormones relaxin, inhibin, oestrogen, and progesterone.
3. Ovulation, the process by which each menstrual cycle results in the release of one egg.
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Explanation:
2 Itching and other skin problems are signs that a cat or dog may have fl eas. Fleas are parasites known for their biting and blood-sucking abilities. When they bite, fl ea saliva enters the pet’s circulatory system, sometimes causing an allergic response commonly seen as a “hot spot” on the pet’s neck or the base of its tail
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Itching and other skin problems are signs that a cat or dog may have flea. Fleas are parasites known for their biting and blood-sucking abilities. When they bite, flea saliva enters the pet’s circulatory system, sometimes causing an allergic response commonly seen as a “hot spot” on the pet’s neck or the base of its tail.
Fleas are tiny parasitic insects that infest the fur of dogs and cats. They feed on blood and cause skin irritation that results in itching. If the problem is severe, it can lead to more significant health issues. Pet owners should watch for signs of fleas and treat their pets promptly to avoid complications. Fleas lay eggs on the skin of dogs and cats, which hatch and develop into larvae.
The larvae feed on the skin, shedding as they mature. Adult fleas emerge from the larvae, biting the host to feed on blood. The process repeats itself, with adult fleas continuing to lay eggs on the skin of the pet.The most common sign of fleas in dogs and cats is itching. Pets will often scratch themselves, bite their skin, or lick excessively to relieve the irritation.
Other signs of fleas include red or inflamed skin, hair loss, and the appearance of small, raised bumps on the skin. These bumps are often referred to as "flea dirt" and are the waste products of the fleas. In severe cases, anemia, an allergic reaction, or the transmission of other parasites or diseases can occur.
Flea infestations can be treated with a variety of products, including topical treatments, shampoos, and collars. It is essential to follow the instructions on the product label and treat the pet and the surrounding environment to eliminate the fleas. Prevention is key to avoiding flea infestations, so pet owners should maintain a regular grooming and flea prevention schedule.
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which of the following statements correctly describe meiosis
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hope that helps
What is this egg on the leaf?
Answers
Explanation:
probably a bugs egg or something
Answer:
Maybe like a caterpillar or something
Explanation:
plant grows on the branches of a tall tree in a dense tropical forest. The plant is able to get better access to sunlight on the branches of the tree than it would on the forest floor. The plant takes up nutrients and water from the air, but not from the tree it grows on. What kind of relationship do the plant and tree have?
Answers
This commensalistic relationship demonstrates how organisms can exploit their environment and utilize other organisms to enhance their own survival and growth without causing harm or benefit to the host organism.
The plant and tree have a commensalistic relationship. In a commensalistic relationship, one organism benefits while the other is neither harmed nor benefited. In this case, the plant benefits from growing on the branches of the tall tree in the dense tropical forest because it gains better access to sunlight, which is essential for photosynthesis and growth. By growing on the tree's branches, the plant is able to reach higher above the forest floor where sunlight is often limited due to the dense canopy. This advantageous position allows the plant to thrive and maximize its chances of survival.
On the other hand, the tree is unaffected by the presence of the plant. It does not provide any resources to the plant, nor does it suffer any negative consequences from the plant's presence. The tree is simply used as a physical support structure for the plant, with no direct interaction or exchange of nutrients between them.
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Which face of the mountain is typically warmer?
East or West
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This is often the eastern side of the mountain range because prevailing winds in the mid-latitudes blow from the west, but that is not necessarily always the case. In contrast to the moist windward side of a mountain, the leeward side typically has a dry, warm climate.
Answer:
west
Explanation:
In temperate regions mountain slopes facing the Equator—southward in the Northern Hemisphere and northward in the Southern Hemisphere—are significantly warmer than opposite slopes.
Food grain are stored in the blank for future use
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Food grains are stored in the warehouse or granary for future use to maintain the production and supply of food in the country and it is also considered as a security measure for the farmers and government agencies.
The grain storage system is important to preserve the nutritional value of the food grains and avoid the losses incurred due to pests, rodents, and other natural calamities such as floods and droughts.
Food grains are the essential components of the human diet, and they need to be stored with utmost care and caution. The quality of food grains plays a crucial role in ensuring the food security of the country. The farmers and the government agencies take care of storing the food grains in the warehouses, which are usually built in the proximity of the grain-producing areas. These warehouses should be equipped with the latest technologies and tools to ensure the safe storage of food grains.
The government also provides subsidies and financial support to the farmers to build their warehouses to store the food grains. The food grain storage system is crucial for ensuring the continuous supply of food and for the survival of the farmers, especially in the developing countries.
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what is cellular affinity in biology?
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Answer:
affinity. Attraction between particles. Biology: A measure of the attraction of one biological molecule toward another molecule, either to modify it, destroy it, or form a compound with it. Examples are enzymes and their substrates, or antibodies and their antigens.
1.1. Define the the concept "Teaching"?
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Answer:
Teaching is the process of sharing knowledge and skills with others, helping them learn and develop. It involves guiding students, delivering lessons, and creating a supportive learning environment. Good teaching inspires curiosity, promotes critical thinking, and empowers students to become active learners.
Diatoms are one of the most common types of phytoplankton in marine habitats. Like plants, diatoms contain chlorophyll and produce glucose from which of the following?
A. O2 and ATP
B. CO2 and O2
C. ATP and H2O
D. CO2 and H2O
Answers
Answer: Co2 and H2O.
Explanation: In the process of photosynthesis, glucose, and oxygen are produced using CO2 and H2O.
I had biology last year, and it was my favorite subject! I really hope this helps!
Please help me. <><><><><<>
Answers
Answer:
I would say D
Explanation:
What determines the boundaries of a watershed?
A.
man-made boundaries like drainage ditches and reservoirs
B.
elevation features like hills, mountains, and ridges
C.
placement of cities and urban sprawl
D.
average annual rainfall in the areav
Answers
Answer:
B. Elevation features like hills, mountains, and ridges
Explanation:
A watershed is all of the land and water areas that drain toward a particular lake or river segment. Thus, a watershed (or drainage basin) is defined in terms of each selected lake or river, such as "Mississippi river watershed". Watersheds can be identified on different scales. Large scale watersheds are composed of smaller areas called sub watersheds. For example, the Mississippi river has an extremely large watershed, encompassing most of the central United States, including all or part of 31 states. In contrast, Lake Itasca in north central Minnesota has a relatively small watershed. As the source of the Mississippi river, Lake Itasca's drainage basin is considered a sub watershed of the entire Mississippi River basin. The Minnesota Department of Natural Resources uses the following terminology to identify watersheds on different scales: regions, subregions, basins, subbasins, watersheds and sub watersheds.
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Tissue engineering is the ability to grow cells in a laboratory. These cells are collected
from an animal, a donor organ, or a patient's body and grown in liquid nutrients that allow
them to divide and multiply. This science explores the possibility of replacing or repairing
human body parts. How is the term engineering as used in this process applied?
By the use of:
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The term engineering as used in the process of tissue engineering simply uses the principles of biomedical engineering to grow cells in the laboratory
This goes to say that tissue engineering helps to develop biological substitutes that replace or improve tissues and organs.What is tissue engineering?Tissue engineering can be defined as the process and ability to grow cells in a laboratory.
In conclusion, the term engineering as used in the process of tissue engineering simply uses the principles of biomedical engineering to grow cells in the laboratory
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identify the anatomical structure A-F
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Answer:
Option A: StifleOption B: ShoulderOption C: KneeOption D: CoronetOption E: PasternOption F: HockIf these are not part of your answer options or if something seems off, please let me know and I will do whatever needed to fix that.
Hope it helps.
PLS HELP Due in 20 minutes
Answers
second question: I THINK poor wound healing
If the left anterior surface of the left ventricle became ischemic there would be some degree of blockage in the
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The left ventricle became ischemic if there would be some type of blockage in the ANTERIOR INTERVENTRICULAR artery. Ischemia occurs when blood flow is restricted in a given region of the body.
Cardiac ischemia is a decreased blood flow (and oxygen) that affects the heart muscle.
The anterior interventricular artery (also referred to as the left anterior descending artery) is a branch of the left coronary artery.
The left ventricular subendocardial muscle is the most prone region of the left ventricle to ischaemic damage.
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Rowena is conducting an important team meeting. One of her team members is
constantly disrupting the meeting by taking personal calls during the meeting. By
doing so, he is hence disrespecting the
of others.
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Consider the reason a peer interrupted you at the initial place when it happens. Keep their goal in mind. You should make straight eye contact with interrupter and say, "Mike, I'm going to complete my point.
Why is it crucial for teams to meet frequently?In team meetings, you may communicate critical information, make sure everyone feels heard, and discuss future plans. Every team member should leave a staff meeting feeling inspired, motivated, and pleased with their accomplishments from the previous week.
Which issue frequently arises in meetings?Leaders frequently have trouble at meetings because they don't allow enough time to fully explore a topic. After the initial subjects, leaders often neglect to account for subtopics, clarification queries, and planning for further stages. Solution: Keep each meeting's topic simple.
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how do the plates and Mantle interact at each type of plate boundary
Answers
Answer:
The theory of plate tectonics states that the Earth's solid outer crust, the lithosphere, is separated into plates that move over the asthenosphere, the molten upper portion of the mantle. ... At convergent boundaries, plates collide with one another.
Using water more efficiently _______.
a.
protects the environment
b.
causes the loss of natural pollution filters
c.
increases water contamination
d.
all of the above
Answers
Answer:
a. protects the environment.
Explanation:
Using water efficiently means using it wisely and not wasting it. When we use water more efficiently, we reduce the amount of water we consume, which helps to conserve water resources. This is important because water is a limited resource, and by using it efficiently, we can ensure enough water is available for future generations.
By using water more efficiently, we can also protect the environment. Water is essential for many ecosystems and habitats, and by conserving water, we can help maintain the balance of these ecosystems. Additionally, using water efficiently can reduce the need for energy-intensive water treatment and distribution processes, which can help reduce greenhouse gas emissions and mitigate climate change.
So, using water more efficiently helps protect the environment but also helps conserve water resources for the future.
Strong sugar solution A Pin holding potato .Potato Pure water -Beaker 1.4.1 State TWO differences between the process investigated in the diagram above and diffusion. 1.4.2 Give ONE planning step that should be considered prior to this Investigation. 1.4.3 Explain the importance of the potato in this investigation.
Answers
1.4.1 Two differences between the process investigated in the diagram above and diffusion:
In the diagram, the process being investigated involves osmosis, not diffusion. Diffusion refers to the movement of particles from an area of higher concentration to an area of lower concentration, while osmosis specifically refers to the movement of water molecules across a semi-permeable membrane.In osmosis, the movement of water molecules occurs in response to the concentration gradient of solute particles, whereas in diffusion, the movement of particles is driven solely by the concentration gradient of the particles themselves.1.4.2 One planning step that should be considered prior to this investigation:
It is important to establish a clear and measurable objective for the investigation. This could involve defining the specific research question or hypothesis that the investigation aims to address. Having a well-defined objective will help guide the experimental design and ensure that relevant data is collected.1.4.3 The importance of the potato in this investigation:
The potato is important in this investigation because it serves as the object of study or the sample material through which osmosis is observed. The potato, being a plant tissue, contains cells with semi-permeable membranes that allow the passage of water molecules but restrict the movement of solute particles. By placing the potato in the strong sugar solution and observing the changes in its weight or texture, one can study the process of osmosis and the effects of water movement across the potato cells. The potato serves as a model system to understand the principles and mechanisms of osmosis in biological systems.for similar questions on sugar solution.
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