Answer: c
Explanation:
I hope this helps :)
What organs release inhibin?
The ovaries and testes release inhibin.
Inhibin is a protein hormone that is secreted by the gonads (ovaries and testes) in response to changing levels of certain hormones, such as follicle-stimulating hormone (FSH) and luteinizing hormone (LH). In females, inhibin is mainly produced by the granulosa cells of developing ovarian follicles and functions to inhibit FSH production by the pituitary gland, thereby regulating the menstrual cycle. In males, inhibin is produced by Sertoli cells of the testes and plays a role in regulating sperm production. Inhibin levels can be measured in blood samples and used to diagnose certain reproductive disorders, such as polycystic ovary syndrome (PCOS) and testicular tumors.
Learn more about inhibin here:
https://brainly.com/question/30487652
#SPJ11
Aarbanes-oxley act requires:__________
The Sarbanes-Oxley Act requires public companies to maintain accurate financial records, implement strong internal controls, and establish independent audit committees to enhance corporate accountability and prevent financial fraud.
One of the key provisions of the SOX is the requirement for public companies to maintain accurate financial records.
Under the law, companies are required to establish and maintain an adequate system of internal controls to ensure that financial reports are accurate and reliable. This includes implementing policies and procedures for financial reporting, as well as measures to prevent and detect fraud.
Another important aspect of the SOX is the requirement for public companies to establish independent audit committees. These committees are responsible for overseeing the company's financial reporting process, including the work of external auditors.
The audit committee must be composed of independent directors who are not officers or employees of the company.
In addition, the SOX requires CEOs and CFOs of public companies to certify the accuracy of the company's financial statements, and to disclose any material changes to the company's financial condition or operations.
The law also establishes penalties for securities fraud and increases the amount of time that executives must wait before selling company stock after it is acquired.
To learn more about financial reports, refer below:
https://brainly.com/question/20462599
#SPJ11
true or false all antibiotics are chemotherapeutic agents but all chemotherapeutic agents are not antibiotics.
Answer: True
Explanation: All antibiotics are a type of chemotherapeutic agent, as they are chemical substances used to treat diseases. However, not all chemotherapeutic agents are antibiotics. Chemotherapeutic agents include a broader range of drugs used to treat diseases, such as cancer chemotherapy drugs, antiviral drugs, and immunosuppressive drugs.
what is the outer segment (of the photoreceptor cells)?
The outer segment is a specialized part of the photoreceptor cells that are located in the retina of the eye.
This segment is responsible for capturing and processing light and converting it into electrical signals that are then transmitted to the brain through the optic nerve.
The outer segment is composed of stacks of membranous discs that contain a light-sensitive pigment known as rhodopsin or photopsin, depending on the type of photoreceptor cell.
In the outer segment, photoreceptor cells have a highly specialized structure that allows them to function effectively in low-light conditions.
The discs of the outer segment are densely packed with photopigments, and they are constantly being renewed to maintain the sensitivity of the cell.
The outer segment is also highly energy-intensive, with photoreceptor cells relying on an active transport system to maintain the ionic gradients that are necessary for their function.
Overall, the outer segment is a critical component of photoreceptor cells that enables them to respond to light stimuli and transmit visual information to the brain.
Without a functioning outer segment, the eye would be unable to perceive light, resulting in blindness.
For more such answers on photoreceptor cells
https://brainly.com/question/28598041
#SPJ11
how is polygenic inheritance defined? group of answer choices the phenotypes observed are discrete--a different phenotype associated with each allele. the traits that are associated with it are normally distributed. many genes contribute to the phenotype--not just one or two. many alleles are present at each gene, not just two.
The polygenic inheritance is defined as a mode of inheritance where many genes contribute to the phenotype of a trait, not just one or two. This means that the traits associated with polygenic inheritance are typically complex and cannot be easily explained by a single gene or allele.
An explanation of polygenic inheritance is that the phenotype observed is not discrete, as there are many alleles present at each gene, not just two. Additionally, the traits associated with polygenic inheritance are normally distributed, which means that they fall within a range of values and are influenced by multiple genetic and environmental factors.
Polygenic inheritance is a complex mode of inheritance where multiple genes contribute to the phenotype of a trait, resulting in a normally distributed range of values. This type of inheritance cannot be easily explained by a single gene or allele and requires a more comprehensive understanding of genetic and environmental factors.
For more information on polygenic inheritance kindly visit to
https://brainly.com/question/30458555
#SPJ11
What were the first trees to develop the nodule system?
The first trees to develop the nodule system were legume trees, specifically those belonging to the family Fabaceae.
The nodule system refers to the formation of root nodules, which are specialized structures that house nitrogen-fixing bacteria. This symbiotic relationship allows legume trees to convert atmospheric nitrogen into a usable form for plant growth.
The first trees to develop the nodule system were likely leguminous trees such as acacias, alders, and eucalyptus. These trees have a symbiotic relationship with nitrogen-fixing bacteria in their roots, which form nodules that provide the tree with a source of nitrogen. This adaptation allowed these trees to thrive in nutrient-poor soils and was a significant factor in the evolution of many modern ecosystems.
To know more about nodule system click here:
https://brainly.com/question/26848273
#SPJ11
which operation of probability should be used to analyze genetic crosses in which the outcomes are independent of each other?multiple choice question.binomial expansionproduct rulesum rulechi square test
The product rule is the statistical procedure that should be applied to examine genetic crossings in which the results are unrelated to one another.
The product rule is used to determine the likelihood that two separate occurrences will occur simultaneously. The outcomes of each offspring in genetic crosses are independent of one another, meaning that the results of one offspring have no bearing on the results of the other offspring. In order to determine the likelihood that two or more independent events will occur together, we apply the product rule. According to the "product rule," the likelihood that two unrelated occurrences will occur together is equal to the sum of their individual probabilities. Assuming that the traits are independent of one another, we may use the product rule to determine the likelihood that offspring in genetic crosses will inherit a certain attribute from each parent.
learn more about genetic crosses here:
https://brainly.com/question/16991762
#SPJ11
Glycogen is removed from storage through the process known as
Glycogen is removed from storage through the process known as glycogenolysis.
Glycogenolysis is the breakdown of glycogen into glucose-1-phosphate, which can be further converted to glucose-6-phosphate and then enter into glycolysis for energy production or be used for other metabolic processes in the body. This process is mainly regulated by the hormones glucagon and epinephrine, which stimulate the breakdown of glycogen in the liver and muscle tissues, respectively.Muscles are specialized tissues in the body that are responsible for producing force and movement. There are three types of muscles in the body: skeletal, smooth, and cardiac.Skeletal muscles are attached to bones by tendons and are responsible for voluntary movements of the body, such as walking, running, and lifting weights. They are under conscious control and can be trained to become stronger and more efficient.
To know more about muscle visit :
https://brainly.com/question/9883108
#SPJ11
the electrical signal that typically moves from the cell body down the axon to the terminal buttons is called the . group of answer choices neurotransmitters action potential epigenome myelin sheath
Answer:
B. Action potential
Explanation:
The axon that transmits an electrical signal is called an action potential.
Classify the following examples and characteristics based on what type of structure is described Answers may be used more than once Wings of penguins that are similar to wings of other brds but penguins do not fty Human appendix that is still Whale fins and bat wings that present even though we no longer need it for a plant- contain the same bone structure based diet Gill pouches present in all vertebrates at some point during development Evidence of evolution from a Both birds and insects have wings to fy Homologous Structures Vestigial Structures Analogous Structures
Homologous Structures,Vestigial Structures Homologous Structures Homologous Structures Homologous Structures
Analogous Structures
Answer - Wings of penguins that are similar to wings of other birds but penguins do not fly - Homologous Structures
Human appendix that is still present even though we no longer need it - Vestigial Structures
Whale fins and bat wings that contain the same bone structure based on diet - Homologous Structures
Gill pouches present in all vertebrates at some point during development - Homologous Structures
Evidence of evolution from a common ancestor - Homologous Structures
Both birds and insects have wings to fly - Analogous Structures
Homologous structures - are those from organisms that share a common ancestor. The similarity in the anatomical features can be used to support conjectures regarding their evolutionary histories.
Structures that have no apparent function and appear to be residual parts from a past ancestor are called vestigial structures. Examples of vestigial structures include the human appendix, the pelvic bone of a snake, and the wings of flightless birds
Analogous structures are features of different species that are similar in function but not necessarily in structure and which do not derive from a common ancestral feature (compare to homologous structures) and which evolved in response to a similar environmental challenge.
To learn more about Homologous structures -
brainly.com/question/7904813
#SPJ11
3. list and describe the 3 basic types of dispersion patterns, and which type of populations follow them.
The 3 basic types of dispersion patterns are clumped, uniform, and random.
Clumped dispersion occurs when individuals are clustered together in groups, which is common among social animals and plants in areas with abundant resources. Uniform dispersion occurs when individuals are evenly spaced throughout an area, which is common in territorial animals or where resources are limited.
Random dispersion occurs when individuals are randomly spaced throughout an area, which is common in plants dispersed by wind or animals that are randomly moving.
These dispersion patterns are important because they can influence population dynamics, such as competition for resources and predation risk. Understanding the dispersion patterns of a population can help inform conservation efforts and management strategies.
To know more about Clumped dispersion click on below link:
https://brainly.com/question/16959989#
#SPJ11
which of the statements correctly describe(s) peptide hormones? select all that apply. peptide hormones bind to intracellular receptors and the peptide-receptor complex acts as a transcription factor. insulin and glucagon are good examples of peptide hormones. most peptide hormones act on cells by binding to receptors on cell surfaces and triggering signaling cascades inside the cell. enzymes modify cholesterol compounds to produce peptide hormones. the action of peptide hormones can cause changes in gene expression or can affect the function of metabolic enzymes in cells.
Peptide hormones do not bind to intracellular receptors and act as transcription factors, nor are they produced by modifying cholesterol compounds through enzymes.
The statement "peptide hormones bind to intracellular receptors and the peptide-receptor complex acts as a transcription factor" is not correct, as peptide hormones typically bind to cell surface receptors and activate intracellular signaling pathways. The statement "enzymes modify cholesterol compounds to produce peptide hormones" is also not correct, as peptide hormones are typically synthesized as pre-prohormones and processed into their active form by proteolytic enzymes.
The statements that correctly describe peptide hormones are:
Insulin and glucagon are good examples of peptide hormones.
Most peptide hormones act on cells by binding to receptors on cell surfaces and triggering signaling cascades inside the cell.
The action of peptide hormones can cause changes in gene expression or can affect the function of metabolic enzymes in cells.
Learn more about Peptide hormones
brainly.com/question/30332053
#SPJ11
what is the importance of brush border enzymes? group of answer choices they bring the small components of the macromolecules to the apical membrane for absorption they secrete hormones that stimulate intestinal motility they power the active transport that allows for absorption in the intestinal epithelium they participate in the initial stages of digestion for the 3 major macromolecules they participate in the final stages of digestion
The brush border enzymes are a group of enzymes located on the surface of the small intestine cells that participate in the initial stages of digestion for the 3 major macromolecules, namely carbohydrates, proteins, and lipids.
These enzymes break down these macromolecules into smaller components that can be easily absorbed by the body. This is important because the absorption of these nutrients is essential for the body to function properly. The brush border enzymes bring the small components of the macromolecules to the apical membrane for absorption, allowing for efficient nutrient uptake. Therefore, brush border enzymes play a crucial role in digestion and nutrient absorption. In summary, the importance of brush border enzymes lies in their ability to facilitate digestion and absorption of nutrients by breaking down macromolecules into smaller components, bringing them to the apical membrane for absorption, and allowing for efficient nutrient uptake.
Brush border enzymes are crucial for the proper digestion and absorption of nutrients in the small intestine. They are located on the microvilli of the intestinal epithelial cells and play a significant role in the digestive process.
1. Final stages of digestion: Brush border enzymes participate in the final stages of digestion for the three major macromolecules (proteins, carbohydrates, and lipids). They help break down these macromolecules into their simplest forms, such as amino acids, monosaccharides, and fatty acids, which can be easily absorbed by the intestinal cells.
2. Absorption of small components: These enzymes bring the small components of the macromolecules to the apical membrane of the intestinal cells for absorption. This allows the nutrients to be taken up by the cells and transported to the bloodstream, where they can be utilized by the body.
In summary, brush border enzymes are essential for completing the digestion of macromolecules and facilitating their absorption by the intestinal cells, contributing to overall nutrient uptake and utilization by the body.
To know more about nutrients refer to
https://brainly.com/question/1268939
#SPJ11
Transposones can cause {{c1::translocation and inversion}} chromosomal mutations
Transposons are DNA sequences that have the ability to move from one location on a chromosome to another. These sequences are often referred to as "jumping genes" because of their ability to change their position within the genome.
One type of chromosomal mutation that can be caused by transposons is a translocation. A translocation occurs when a segment of one chromosome breaks off and becomes attached to a different chromosome. This can happen if a transposon inserts itself into a region of the chromosome that is involved in a cross-over event during meiosis.
The result is that the genetic material from one chromosome is transferred to a different chromosome, which can have significant effects on gene expression and function.
To know more about DNA visit:-
https://brainly.com/question/264225
#SPJ11
To reduced glare from the surroundings, the windows of some department stores, rather than being vertical, slant inward at the bottom. Discuss why this reduces glare.
The slanting inward of the bottom of department store windows helps to reduce glare from the surroundings because it changes the angle at which light enters the window.
When a window is completely vertical, light can enter at a direct angle, bouncing off surrounding surfaces and creating a glare. However, when the bottom of the window slants inward, it changes the angle at which the light enters, causing it to bounce off the ground or other lower surfaces rather than directly into the viewer's eyes. This reduces the amount of glare and makes it easier for customers to see the merchandise displayed in the window. Additionally, the slanted window design also provides a unique and eye-catching aesthetic for the store's display.
To know more about glare click here:
https://brainly.com/question/8114244
#SPJ11
Why is coliform bacteria used to determine if water has been contaminated?
Because coliform bacteria are present in the digestive systems of humans and animals, their presence in water can indicate the potential for the water to be contaminated with harmful pathogens that could cause illness.
Coliform bacteria are commonly found in the intestines of warm-blooded animals, including humans, and are a type of indicator organism used to determine if water has been contaminated with fecal matter. Coliform bacteria are relatively easy to detect and are used as an indicator of water quality because they are typically present in large numbers in fecal matter and are easier to detect than other types of pathogens. Additionally, the presence of coliform bacteria in water can help to identify potential sources of contamination, which can aid in the development of effective strategies to protect public health.
The use of coliform bacteria as an indicator of fecal contamination is based on the assumption that if coliforms are present, there is a higher likelihood that other pathogenic bacteria or viruses that are also present in feces may be present in the water. Therefore, coliform bacteria are used as a screening tool to identify potential fecal contamination in water sources.
In addition to being commonly found in feces, coliform bacteria are also easy to detect and enumerate using standard laboratory methods. This makes them a convenient and cost-effective indicator for routine monitoring of water quality. If coliform bacteria are detected in a water sample, further testing can be done to determine if harmful pathogens are present and if the water is safe for human consumption.
To know more about coliform bacteria, please click on:
https://brainly.com/question/31600774
#SPJ11
A new bacterial strain (strain a) is introduced to a gut microbiome that brings with it a new capacity: the ability to convert organic compound x into a new byproduct compound y with high efficiency. this byproduct allows another strain, strain b, to now express its latent capacity to burn byproduct y for energy, and the relative presence of strain b in the microbiome grows proportionally. after a time, strain b begins to form a biofilm. a third strain, strain c, was highly dependent on compound x as an energy source, but it is not as effective at competing with strain a for it and its relative presence in the microbiome declines. Which statements best describes the dynamics of this gut microbiome after the introduction of strain a?
The statement that best describes the dynamics of this gut microbe after the introduction of strain a is as follows:
1. Strain A efficiently converts organic compound X into byproduct compound Y.
2. Strain B, which has a latent capacity to utilize compound Y for energy, starts to grow proportionally due to the availability of compound Y.
3. As strain B grows, it begins to form a biofilm.
4. Strain C, which depends on compound X as an energy source, experiences a decline in its relative presence in the microbiome because it cannot compete effectively with strain A for compound X.
In summary, the introduction of strain A leads to the growth of strain B and the decline of strain C in the gut microbiome due to changes in the availability and utilization of compounds X and Y.
To learn more about compound, refer below:
https://brainly.com/question/30904369
#SPJ11
GLUT4 transporters are
A) stored in cytoplasmic vesicles.
B) inserted in response to glucagon.
C) inserted into the plasma membrane by endocytosis.
D) stored in cytoplasmic vesicles and found in adipose and skeletal muscles.
E) found in adipose and skeletal muscles
GLUT4 transporters are stored in cytoplasmic vesicles and found in adipose and skeletal muscles. They are inserted into the plasma membrane in response to insulin, not glucagon, and this process is called exocytosis, not endocytosis.
To know more about plasma please visit:
https://brainly.com/question/31510917
#SPJ11
which checkpoint prevents a normal cell from completing its cell cycle if it has not accurately replicated its dna?
The G2 checkpoint prevents a normal cell from completing its cell cycle if it has not accurately replicated its DNA.
If a cell were to proceed into mitosis with errors in its DNA, it could result in mutations or incorrect chromosome numbers, leading to potential health problems or even cancer. The G2 checkpoint acts as a safeguard to prevent this from happening by pausing the cell cycle and allowing for DNA repair mechanisms to fix any issues before continuing with cell division.
The G2 checkpoint, also known as the DNA damage checkpoint, is a critical control point in the cell cycle that ensures the cell has properly duplicated its DNA before entering mitosis (M phase). This checkpoint prevents cells with damaged or inaccurately replicated DNA from dividing, allowing time for DNA repair mechanisms to fix any errors. If the errors cannot be fixed, the cell may undergo apoptosis (programmed cell death) to prevent the propagation of potentially harmful mutations.
To know more about cell cycle visit:-
https://brainly.com/question/15876101
#SPJ11
the fact that older fossils are more unlike living organisms implies that old forms of life died out and that new forms of life have developed is known as
The theory that old forms of life died out and new forms of life developed is known as the theory of biological evolution.
This theory suggests that species change over time through the processes of natural selection and genetic variation.
The fact that older fossils are more unlike living organisms implies that old forms of life died out and that new forms of life have developed is known as the theory of biological evolution. This theory suggests that species change over time through the processes of natural selection and genetic variation, leading to the diversification of life on Earth. The fossil record provides evidence for the evolution of life by showing the succession of different forms of life over time.
The fossil record provides evidence for the evolution of life.
Learn more about evolution here:
https://brainly.com/question/13492988
#SPJ11
Cartilaginous rings in the trachea are incomplete posteriorly to allow a food bolus traveling down the posterior esophagus to bulge anteriorly.
a. True
b. False
The statement "Cartilaginous rings in the trachea are incomplete posteriorly to allow a food bolus traveling down the posterior esophagus to bulge anteriorly" is true.
The trachea has C-shaped cartilaginous rings that provide structural support and maintain its open shape during respiration. These rings are incomplete posteriorly, with a gap filled by the trachealis muscle and connective tissue.
This design allows flexibility for the trachea to expand and contract slightly during breathing, and also permits the adjacent esophagus to bulge anteriorly when a food bolus is traveling down it. The esophagus, located posterior to the trachea, is responsible for transporting food from the pharynx to the stomach.
When a food bolus passes through the esophagus, its muscular walls contract and push the bolus downward. The incomplete cartilaginous rings of the trachea provide space for the esophagus to expand as needed, ensuring efficient passage of food to the stomach.
To know more about Cartilaginous rings click on below link:
https://brainly.com/question/31228033#
#SPJ11
The {{c1::semicircular canals}} detect twisting of the head with fluid and hair cells
The semicircular canals are three fluid-filled structures located in the inner ear that are responsible for detecting changes in rotational acceleration of the head.
Each semicircular canal is oriented in a different plane and contains hair cells that are embedded in a gel-like substance called the cupula. When the head rotates, the fluid inside the semicircular canals moves and causes the cupula to bend, which in turn stimulates the hair cells to send signals to the brain. This allows us to maintain our balance and sense changes in our body position.
More on semicircular canals: https://brainly.com/question/28869103
#SPJ11
natural selection is a selective pressure that affects phenotypes that create an adaptive advantage a
Natural selection is a selective pressure that affects phenotypes that create an adaptive advantage in a given environment.
Individuals that possess advantageous traits are more likely to survive and reproduce, passing on their genes to their offspring. Over time, this can result in the accumulation of favorable traits within a population, leading to evolution. Natural selection can operate on various aspects of an organism's phenotype, including physical and behavioral traits, as well as physiological and biochemical processes. The specific traits that are selected for or against will depend on the environmental conditions and the interactions between organisms in the ecosystem.
Learn more about environment here:
https://brainly.com/question/30821114
#SPJ11
Of the SENSES, which ones are most likely to decline significantly in MIDDLE ADULTHOOD?
In middle adulthood, which generally encompasses the ages from 40 to 65 years, the sensory systems may start to show some signs of decline.
The following senses are most likely to suffer severe declines in middle adulthood, however all senses can be affected to some extent:
Vision: As we age, our lenses become less flexible, resulting in a deterioration in our capacity to see up close and in dim light (presbyopia) as well as night vision. Hearing: As inner ear hair cells that detect high-pitched sounds begin to deteriorate, the capacity to hear high-pitched sounds may start to wane in middle adulthood. Taste and smell: Middle-aged adults may notice a decline in their sense of taste and smell, which may have an impact on how much they enjoy their meals and beverages.For such more question on adulthood:
https://brainly.com/question/1032662
#SPJ11
What is the shape of spirilla bacteria?
Spirilla bacteria are characterized by their spiral or helical shape, which gives them a distinctive corkscrew appearance. Unlike other bacteria that are either spherical (cocci) or rod-shaped (bacilli), spirilla are elongated and have a rigid, spiral structure that allows them to move through their environment in a corkscrew-like motion.
The spiral shape of spirilla bacteria is maintained by the presence of flagella, which are long, whip-like structures that extend from the cell surface and rotate in a coordinated manner to propel the bacterium forward. The number and arrangement of flagella can vary between species of spirilla, leading to different patterns of movement and swimming behavior. Spirilla bacteria are found in a variety of environments, including freshwater and marine habitats, as well as the digestive tracts of animals. Some species of spirilla are pathogenic and can cause disease in humans and other animals, while others are involved in biogeochemical cycling and nutrient cycling in the environment.
Learn more about bacteria: https://brainly.com/question/19476810
#SPJ11
Plants are capable of detecting and responding to external signals in their environment, including light. Light is one factor that controls important plant functions such as seed germination and flowering. Place the following steps in order to identify the process by which light photoreceptors and auxin control phototropism in plants. Step 1 is given to you: Plant shoot is exposed to light on one side, but not the other side step 2
step 3
step 4
step 5
step 6
step 7
step 8
step 9
step 10
a.The cell wall becomes more acidic b.Turgor pressure increases and expands the cell c.Microfibrils are separated from polysaccharides, loosening the connections between microfibrils
d. Plant shoot grows unequally, causing the plant shoot to bend towards light. e.Water enters the cell f.Auxin is released asymmetrically at the tip of the shoot g.Cell wall-loosening enzymes cleave polysacharrides
h. Proteins called expansions are activated i.Proton pump activity in the cell membrane increases
Plants are capable of detecting and responding to external signals in their environment, including light. Light is one factor that controls important plant functions such as seed germination and flowering. The correct order of steps to identify the process by which light photoreceptors and auxin control phototropism in plants is:
i, a, g, c, h, b, e, f, d.
already given - 1. The plant shoot is exposed to light on one side, but not on the other side
i - 2. Proton pump activity in the cell membrane increases
a - 3. The cell wall becomes more acidic
g - 4. Cell wall-loosening enzymes cleave polysaccharides
c- 5. Microfibrils are separated from polysaccharides, loosening the connections between microfibrils
h - 6. Proteins called expansions are activated
b - 7. Turgor pressure increases and expands the cell
e - 8. Water enters the cell
f - 9. Auxin is released asymmetrically at the tip of the shoot
d - 10. Plant shoot grows unequally, causing the plant shoot to bend towards the light.
The correct order is as follows:
1. Plant shoot is exposed to light on one side, but not the other side
2. Proton pump activity in the cell membrane increases
3. The cell wall becomes more acidic
4. Cell wall-loosening enzymes cleave polysaccharides
5. Microfibrils are separated from polysaccharides, loosening the connections between microfibrils
6. Proteins called expansions are activated
7. Turgor pressure increases and expands the cell
8. Water enters the cell
9. Auxin is released asymmetrically at the tip of the shoot
10. Plant shoot grows unequally, causing the plant shoot to bend towards the light, called phototropism.
Learn more about phototropism here:
https://brainly.com/question/12461019
#SPJ11
Which of the following is least likely to becoming a fossil?
1) A clam shell
2) A slug
3) An elephant
4) A pine tree
The least likely to become a fossil is A slug.(2)
Fossilization typically favors organisms with hard body parts, such as bones, shells, or wood. A clam shell (1) and an elephant (3) have hard body parts that can more easily fossilize.
A pine tree (4), though a plant, has wood that can be preserved. In contrast, a slug (2) has a soft body with no hard parts, making it less likely to leave any trace behind during the fossilization process. Additionally, the rapid decomposition of soft tissues makes it difficult for a slug to become a fossil.(2)
To know more about decomposition click on below link:
https://brainly.com/question/8009068#
#SPJ11
the gas that was in extremely small quantities or Completely absent when life started on earth?
The gas that was in extremely small quantities or Completely absent when life started on earth is Oxygen.
What is oxgen gas?Oxygen can be described as one of the chemical element in chemistry , it can be considered as one of the element that is in abundance in the earth with the symbol O and atomic number 8.
It should be noted that it serves as one of the element that belongs to the highly reactive nonmetal, as well as oxidizing agent which can be seen in almost part of the earth, it can be considered as one that was in extremely small quantities in early creation.
Learn more about Oxygen at:
https://brainly.com/question/1843908
#SPJ1
what number and types of chromosomes are found in a human somatic cell in an animal with a diploid number of 48
A human somatic cell in an animal with a diploid number of 48 would have 48 chromosomes.
The types of chromosomes would be 23 pairs, with one chromosome in each pair coming from each parent.
To provide an explanation, diploid cells contain two sets of chromosomes, one set from each parent.
In humans, the diploid number of chromosomes is 46, but in some animals,
it can be different. In this case, the animal has a diploid number of 48, which means that each somatic cell will contain 48 chromosomes.
Hence, a human somatic cell in an animal with a diploid number of 48 would have 48 chromosomes, with 23 pairs of chromosomes, one from each parent.
learn more about chromosomes click here:
https://brainly.com/question/11912112
#SPJ11
Homologous chromosomes are pairs tha code for the same {{c1::traits}} but can contain different {{c1::alleles}}
Homologous chromosomes are pairs of chromosomes that code for the same traits but can contain different alleles. These chromosomes carry the same genes in the same locations but may have variations in the specific genetic code, leading to different expressions of those traits.
A homologous chromosome is one of a pair of chromosomes that share the same gene sequence, locations, chromosomal length, and centromere location. One paternal and one maternal chromosome make up a homologous pair. A somatic cell of a human has a total of 46 chromosomes in its nucleus. The father inherits half of them (22 autosomes plus X or Y chromosome), while the mother inherits the other half (22 autosomes + X chromosome). During meiosis, the maternal and paternal chromosomes couple up, with each having a corresponding counterpart. A female typically has 23 homologous chromosomes, compared to a male's 22. This is due to the fact that men's X and Y sex chromosomes are not identical. During meiosis, homologous chromosomal pairing is crucial. During meiosis, homologous chromosomal pairing is crucial for fostering genetic diversity.
Learn more about homologous here:
brainly.com/question/30371167
#SPJ11