Organism structure provides the evolutionary history of their ancestors and also provides which structure is homologous between them. Organism changes their habitat, color, and size according to environmental conditions and time.
Why organism classification is needed?An organism's classification frequently offers helpful details about its evolutionary background and the other creatures to which it is linked.
It makes it easier to identify creatures. It discusses the interactions between various species. It facilitates understanding of organism evolution.
Therefore, organism structure is needed to study evolutionary history.
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is it possible to completely eliminate the red allele? based on your data, approximately how many more generations would it take?
It is possible to eliminate a particular allele, such as the red allele, from a population through a process known as selective breeding or artificial selection.
In selective breeding, individuals with the desired traits are selectively bred with each other to produce offspring with those traits, and individuals with undesirable traits are not bred. Over time, and with repeated selection, the frequency of the undesirable allele in the population can decrease and eventually be eliminated.
The exact number of generations it would take to completely eliminate the red allele depends on several factors, including the size of the population, the rate of mutation, the level of selection pressure, and the degree of inbreeding. These factors can greatly influence the speed at which the frequency of the red allele changes, and thus, the number of generations needed to eliminate it.
Without specific data on the population and the selection pressure being applied, it is not possible to estimate the exact number of generations needed to eliminate the red allele. Additionally, complete elimination of an allele may not always be possible or desirable, as genetic diversity is important for the adaptation and survival of populations.
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Outline how carbon compounds are produced in cells using light energy
Photosynthesis is the process of utilizing light energy to produce carbon compounds in cells.
Photosynthesis is the conversion of carbon dioxide and water into glucose/carbohydrates and oxygen in cells using light energy. Chlorophyll absorbs the reddest and blue light and reflects the greenest light. Plants absorb carbon dioxide (CO2) and water (H2O) from the air and soil during photosynthesis. Within the plant cell, water is oxidized, which means it loses electrons, whereas carbon dioxide is curtailed, which signifies it gains electrons. Water is converted to oxygen, and carbon dioxide is transformed into glucose.
Photosynthesis is the method by which plants and other organisms convert light energy into chemical energy, which is then released to fuel the organism's activities through cellular respiration. Some of this chemical energy is stored in carbohydrate molecules, such as sugars and starches, which are synthesised from carbon dioxide and water - hence the name photosynthesis, from the Greek Phós (φῶς), "light", and synthesis , "putting together". Photosynthesis is performed by most plants, algae, and cyanobacteria; these organisms are known as photoautotrophs. Photosynthesis produces and maintaining the oxygen content of the Earth's atmosphere, as well as supplying most of the energy required for life on Earth.
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Which statement best compares the functions of chloroplasts and cytoplasm in a plant cell?
O A. Chloroplasts contain chlorophyll and make food for the plant cell, while the cytoplasm contains the water and nutrients needed for
the plant cell.
OB. Chloroplasts contain water and nutrients needed for the plant cell, while the cytoplasm contains chlorophyll and makes food for the
plant cell.
O C. Chloroplasts contain the DNA of the plant cell, while the cytoplasm contains broken down food and releases energy to the plant
cell.
O D. Chloroplasts antain broken down food and release energy to the plant cell, while the cytoplasm contains the DNA of the plant cell.
Answer:
The statement that best compares the functions of chloroplasts and cytoplasm in a plant cell is: A. Chloroplasts contain chlorophyll and make food for the plant cell, while the cytoplasm contains the water and nutrients needed for the plant cell.
Describe why woxygen to the is it body cells important For blood to transport
Answer:
When the red blood cells reach tissues that need oxygen, the oxygen is released from the haemoglobin and diffuses into the cells where it is used to make energy. All the systems in our body rely on oxygen to make energy.
Explanation:
when studying population growth curves with a spectrophotometer, why is it unlikely that you will see the typical steep decrease of the curve during the death phase?
The spectrophotometer measures turbidity of the tube, that is encouraged via way of means of each dwelling and lifeless cells.
The unique pattern is diluted via way of means of streaking it over successive quadrants, the quantity of organisms decreases. Device for detecting and reading wavelengths of electromagnetic radiation, normally used for molecular spectroscopy; greater broadly, any of diverse units wherein an emission (as of electromagnetic radiation or particles) is unfold out in step with a few property (as strength or mass) right into a spectrum . A spectrometer is a systematic device used to research the mild residences of a luminous item or meditated mild.
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assuming independent assortment, what is the probability that the following parents, aabb and aabb, will produce an aabb offspring?
The independent assortment of genes during meiosis can result in a wide range of genetic combinations in offspring. The probability of the parent's aabb and aabb producing an aabb offspring is 100%.
Assuming that the parents, aabb and aabb, have dominant alleles (A) and recessive alleles (a) for a particular trait, the probability of producing an aabb offspring can be calculated using a Punnett square.
A Punnett square is a grid that shows the possible offspring combinations resulting from a cross between two parents. To construct a Punnett square for these parents, you would write one parent's alleles along the top and the other parent's alleles along the side. Then, fill in each box with the possible offspring combinations by combining the alleles from each parent.
In this case, the Punnett square would show four boxes, each containing the offspring combination "aabb." This means that the probability of producing an aabb offspring from this cross is 1 (or 100%). This is because each box in the Punnett square represents one possible offspring, and all four boxes contain the same combination.
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who was the first person to look at cells with a microscope
2. what is unusual about the pattern of cleavage in the fruit fly egg compared to that of eggs from organisms such as sea urchin or frog?
The unusual about the pattern of cleavage in the fruit fly egg compared to that of eggs from organisms such as sea urchin or frog is as; Fruit fly eggs have meroblastic superficial cleavage, while sea urchin and frog eggs have holoblastic radial.
A meroblastic superficial cleavage can be seen in the egg of a fruit fly (Drosophila), whereas a holoblastic radial cleavage can be seen in the egg of a sea urchin or a frog.
Cleavage is the period of time that follows fertilization and marks the beginning of the transformation of a single-cell embryo into a multicellular organism. It is made up of a series of mitotic divisions, which split the vast volume of an egg that has been fertilized into a huge number of smaller cells that have nuclei. These cells are called blastomeres. Cleavage divisions can look rather different depending on the species.
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Which of the following explains why a high protein meal on Tuesday won’t be useful for building muscle protein on the weekend?
Amino acids are not required for building muscle proteins.
Your body would require at least two weeks to build the amino acids required for the muscle protein.
The human body cannot store amino acids that long.
The body would need an influx of glucose to build the protein, not amino acids.
Which one is correct^ help!
A high protein meal on Tuesday won’t be useful for building muscle protein on the weekend because the human body cannot store amino acids that long. Thus, third option is correct.
Since, the human body cannot store amino acids for an extended period of time, a high protein meal on Tuesday will not be useful for building muscle protein on the weekend. Amino acids are protein building blocks, and the body requires a steady supply of them to synthesise new proteins, including muscle proteins. However, because the body cannot store amino acids for long periods of time, a single high-protein meal will not provide the amino acids required for muscle protein synthesis over several days. As a result, it's critical to consume enough protein on a regular basis to support muscle protein synthesis and other bodily functions.
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which type of reproductive barrier separates two species of sea cucumbers whose sperm and eggs often bump into each other but do not cross-fertilize because of incompatible proteins on their surfaces? temporal isolation habitat isolation mechanical isolation gametic isolation
Reproductive barrier which separates two species of sea cucumbers is d)gametic isolation.So,correct option is d.
Gametic isolation is an instrument of conceptive segregation which represses mating between two unmistakable species, by guaranteeing that their gametes don't communicate with one another. This incongruence of gametes forestalls the development of between species mixtures, and keeps up with the trustworthiness of the species.Gametic confinement is a sort of prezygotic boundary.
Gametic isolation happens when the egg and sperm are delivered yet a zygote isn't shaped. A zygote is the cell created when an egg and sperm join together. The term 'gamete' alludes to the regenerative cells like eggs and sperm.Other prezygotic obstructions keep creatures from coming into contact with one another; they might live in various environments, have different mating seasons, or perform different mating customs. In instances of gametic isolation, be that as it may, the creatures truly do come into contact, yet the gametes (regenerative cells) are not viable.
Hence,correct option is d.
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(Complete question) is:
which type of reproductive barrier separates two species of sea cucumbers whose sperm and eggs often bump into each other but do not cross-fertilize because of incompatible proteins on their surfaces?
a)temporal isolation
b)habitat isolation
c)mechanical isolation
d)gametic isolation
Uhh i need some help with this science assignment is due tomorrow..
1. The curves line which exhibits exponential growth is yellow line.
2. The two curves line which exhibits a carrying capacity is green line.
3. 1000 individuals is the carrying capacity of this graph.
4. In 23rd generation which this population reach its carrying capacity.
About CurveThe curve above shows a exponential growth as yellow line.
Exponential growth is a condition/event that experiences an exponential increase or increase in each period.
Exponential growth is expressed as follows:
Pn = P0 ( 1 + i )ⁿ
Information :
Pn = condition of the object during the eke-n period
P0 = initial condition of the object
i = growth percentage
n = period
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Select all the offspring phenotypes that could be
produced from a BbEE x bibee cross (shown
above)
black fur, red eyes
black fur, black eyes
white fur, black eyes
white fur, red eyes
Based on the cross, the possible phenotypes are:Black fur, red eyesWhite fur, red eyes
Answer:
Black fur, black eyes, white fur black eyes.
Explanation:
A wave is composed of oscillations that move with the particles being carried with them. True or False
Answer: Wave motion transfers energy from one point to another, often with no permanent displacement of the particles of the medium —that is, with little or no associated mass transport. They consist, instead, of oscillations or vibrations around almost fixed locations
Explanation:
ow are recessive traits inherited when multiple alleles or sexlinked genes are involved?
When multiple alleles or sex-linked genes are involved, the inheritance of recessive traits can be a bit more complex than when only a single pair of alleles are involved.
Multiple alleles will refer to the existence of more than two alleles for a single gene. For example, a gene that controls blood type in humans has three alleles: A, B, and O. In this case, the expression of the recessive allele (O) depends on the presence of two O alleles, one from each parent. If an individual has one A allele and one O allele, the A allele will be dominant and the individual will have type A blood.
Sex-linked genes are genes located on the X or Y chromosomes, which determine an individual's sex. The X chromosome is present in both males and females, while the Y chromosome is present only in males. Because females have two X chromosomes, they are more likely to express recessive traits associated with X-linked genes.
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--The given question is incomplete, the complete question is
"How are recessive traits inherited when multiple alleles or sex linked genes are involved?"--
Describe how cells, atoms, and molecules are related.
Answer: Atoms bond together to form molecules, and molecules come together to form cells
Explanation:
The smallest unit of life. Cells group together to form tissues, such as muscle, or intestine. These tissues group together to form organs which perform a specific function within a larger organ system.
( Hope this helps )
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the central nervous system is comprised of . a. the somatic and autonomic divisions b. the sympathetic and parasympathetic divisions c. your brain and spinal cord d. your body's organs and glands
The central nervous system (CNS) is comprised of the brain and spinal cord.
The brain is the most complex part of the CNS, and it is responsible for controlling and coordinating all the body's functions, from sensory processing and motor control to emotion, thought, and memory. The spinal cord is a long, thin column of nerve tissue that runs from the brain down the center of the back. It acts as a relay center for signals between the brain and the peripheral nervous system, which includes all the nerves that branch off the spinal cord and extend to other parts of the body.
Together, the brain and spinal cord make up the central nervous system and play a crucial role in regulating and coordinating the body's functions and responses to the environment. The CNS is protected by the skull and vertebral column, and it is surrounded by cerebrospinal fluid, which helps to cushion and protect the delicate nerve tissue. Any damage to the CNS can have serious consequences, so it is important to protect it from injury and disease.
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for what two modes of inheritance is it not possible to have a true breeding cross in the parental generation?
Autosomal recessive and Sex-linked recessive modes of inheritance is it not possible to have a true breeding cross in the parental generation.
What do we mean by breeding cross?To crossbreed, animals of different breeds must be mated. Breeds are typically chosen based on complementary traits that will increase the economic value of the offspring. One example is the breeding of pigs from the Yorkshire and Duroc breeds. The process of mating two animals of different breeds but of the same species, each with desirable traits, is known as cross breeding.
Frieswal, a cross between indigenous Sahiwal cattle and exotic Holstein Friesian cattle, is one example. It was developed by the ICAR in Meerut. There are numerous examples of cross-breeding. A crossbred pig produced by mating members of the Yorkshire and Duroc breeds is another example.
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which of the following occurs with inadequate consumption of protein? multiple select question. edema can develop. immune function is impaired. sickle cell anemia can result. blood protein concentration decreases.
Inadequate consumption of protein can result in various adverse effects on the body. Edema, or the accumulation of fluid in tissues, can develop as a result of a deficiency in protein, which is necessary for fluid balance in the body.
Immune function can also be impaired, as the immune system relies on proteins to function properly. Deficiency in protein can also result in sickle cell anemia, a genetic blood disorder caused by a lack of hemoglobin.
Lastly, blood protein concentration decreases as a result of inadequate protein intake, which can have negative impacts on various bodily functions that rely on the proper concentration of blood proteins. Therefore, it is important to consume an adequate amount of protein in the diet to maintain good health.
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How do you identify the family each shark belongs?
Sharks are members of the class Chondrichthyes' superorder Selachimorpha and subclass Elasmobranchii. Skates and rays are also members of the Elasmobranchii, while chimeras are members of the Chondrichthyes.
In the science of taxonomy, species are categorized and given names. It serves as the foundation for our knowledge of sharks and is essential to the protection of biodiversity. In order to comprehend each species' function within the ecosystem, it is essential to grasp who they are and how they are linked.
Sharks are members of the Animalia kingdom. Sharks are classified as members of the Phylum Chordata and Subphylum Vertebrata. This indicates that they have a backbone, notochord, and spinal cord. Chondrichthyes is the class that includes sharks.
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after menstruation, estrogen levels decrease. what does this decrease in estrogen levels lead to? mark all that apply.
After the estrogen levels decrease after menstruation, this leads to a surge in the levels of progesterone, LH, FSH and GnRH.
Menstruation is the vaginal bleeding that occurs due to breakdown of the blood lining formed upon the endometrial layer of the uterus. The menstruation occur every month within a period of 28-32 days. The menstruations do not occur during pregnancy because the blood lining is required for the development of the fetus.
Estrogen is the female hormone produced in the ovaries of females. These hormones are required for the normal reproductive development of females. The adrenal glands and fat cells can also produce minute amounts of estrogen.
The given question was incomplete, and therefore has been answered in a general way.
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you have discovered a mammoth tusk buried in the arctic tundra. if only one quarter of the carbon-14 in this fossil remains, then when was this animal alive?
You have found a mammoth tusk buried in the tundra of the Arctic. Even though only 25% of the carbon-14 in this fossil is still present, it indicates that the animal was alive 11,460 years ago.
What is carbon 14?When a neutron interacts with a nitrogen atom, it captures the neutron and releases the proton, transforming nitrogen into the unstable isotope of carbon C-14 with fourteen nucleons (6 protons and 8 neutrons). As carbon-14 breaks down and turns back into nitrogen, beta particles are released.
With a nucleus made up of 6 protons and 8 neutrons, carbon-14, often known as 14C or radiocarbon, is a radioactive isotope of the element carbon. The radiocarbon dating technique was developed by Willard Libby and colleagues (1949) to date samples from anthropology, geology, and hydrogeology based on their presence in organic components.
5,730 years make up carbon-14's half-life.
In two half-lives, the amount of carbon-14 in a sample will drop to one-fourth (1/2 x 12 = 1/4). The animal must have been alive 2 x 5,730 = 11,460 years ago because the half-life of carbon-14 is 5,730 years.
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A plant nursery owner wants to guarantee that the seeds she sells produce only pink-flowered four o’clock plants. How should she obtain the seeds?
To guarantee that the seeds produced by the four o'clock plants are pink-flowered, the plant nursery owner should practice selective breeding.
This involves carefully selecting and cross-pollinating only those plants that produce pink flowers and discarding those that produce other colors.
To begin, the plant nursery owner should identify the parent plants with the desired trait (pink flowers) and isolate them from other plants to prevent cross-pollination. Next, the owner can cross-pollinate the pink-flowered plants by manually transferring pollen from one plant to the stigma of another. This ensures that only pink-flowered plants are used in the next generation.
The resulting offspring should be evaluated to determine if they have inherited the desired trait. Only those that have pink flowers should be kept for future breeding. This process can be repeated over several generations to further enhance the prevalence of the desired trait (pink flowers) in the population.
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What cytoskeletal element is susceptible to mitotic inhibitors?
The cytoskeletal element that is most susceptible to mitotic inhibitors is microtubules.
Microtubules are long, thin cylindrical structures made up of protein subunits called tubulin. They are an essential part of the eukaryotic cell's cytoskeleton and play a key role in cell division, or mitosis.
During mitosis, microtubules help to separate the chromosomes in the cell and distribute them evenly to the two daughter cells. Microtubules also help to organize the chromosomes and keep them aligned during the various stages of cell division.
Mitotic inhibitors are compounds that can disrupt the normal processes of cell division and are often used in cancer treatment to prevent cancer cells from dividing and growing. They do this by specifically targeting the microtubules and preventing them from functioning properly.
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what is the main function of the nucleolus? it is the site of photosynthesis in photosynthetic cells.
Facilitating ribosome biogenesis is the main function of the nucleolus.
What role does the nucleolus play?The nucleolus, a structure in the nucleus, is in charge of the Ribosome Biogenesis process, which produces ribosomes by utilizing four different rRNAs.
The ribosome, which is where the protein synthesis takes place, is made up of the components that the nucleolus produces and puts together. By putting the ribosome subunits together, the nucleolus serves a supporting function in protein synthesis. Numerous r-genes located in the nucleolus are responsible for the nucleolus' ability to produce 50% of the RNA that is produced by the cells overall.
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In Visayas.
II. True or False
1. Banduria is a soprano instrument and usually plays the melodic line of the composition.
12. Laud is from a latin word "lute"
13. Guitar is a popular musical instrument with 8 strings
14. Tultogan is an ensemble of drums and bamboo
15. Binanog is an example of string instruments
16. Octavina has a long neck compared to guitar with 14 strings and 16 frets
17. Bajo de Arco is the largest among instruments in the most string assemble.
18. Juan Silos, Jr. Is also known as "father of Rondalla"
19. Tongali is a nose flute which is playedwith the extreme forward edge of the right or left
nostrils
20. Gangsa Palook are gongs beaten with wooden mallets
Visayas is a region in the Philippines that is rich in musical heritage and traditional instruments.
True: Banduria is a type of stringed instrument that is commonly played in the Visayas. It is indeed a soprano instrument and often plays the melodic line of the composition.
False: Laud is not derived from the Latin word "lute". It is actually a type of lute that originated from the Spanish word "laúd".
True: The guitar is indeed a popular musical instrument with 8 strings that are widely used in Visayas and other parts of the Philippines.
True: Tultogan is an ensemble of drums and bamboo that is traditionally used in Visayas for various cultural and religious events.
True: Binanog is an example of a string instrument commonly played in the Visayas.
False: Octavina is a type of stringed instrument that is similar to the guitar but with a longer neck. It typically has 8 strings and 16 frets.
False: Bajo de Arco is not the most prominent instrument in a string ensemble. It is actually a type of double bass that is used in various traditional and folk music in the Visayas.
True: Juan Silos, Jr. is known as the "father of Rondalla" and is recognized for his contributions to Philippine folk music.
True: Tongali is a type of nose flute that is played with the extreme forward edge of the nostrils.
True: Gangsa Palook is gongs beaten with wooden mallets and commonly used in Visayas for various musical and cultural events.
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in the breakdown of hemoglobin, the globin chains __________.
In the breakdown of hemoglobin, globin chains are broken down by macrophages into amino acids
Globin, the protein portion of hemoglobin, is broken down into amino acids, which can be sent back to bone marrow to be used in the production of new erythrocytes. Hemoglobin that is not phagocytized is broken down in circulation, releasing alpha and beta chains that are removed from circulation by the kidneys
Red blood cell haemoglobin molecules are broken down into two the subunits, heme (the part containing iron) and globin. In addition, the heme breaks down into iron and biliverdin, green pigment. Biliverdin is then transformed to bilirubin, an orange pigment
Hemoglobin molecules from red blood cells are broken down into two subunits, heme (iron portion) and globin. The heme further breaks down into iron and green pigment called biliverdin. Biliverdin then is converted to orange pigment called bilirubin.
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At which catabolic step is the greatest quantity of ATP produced?A) oxidative phosphorylation. B) citric acid cycle. C) glycolysis. D) pyruvate oxidation.
The correct option is (A) Oxidative phosphorylation. Oxidative phosphorylation is the process that produces the most quantum of ATP in a eukaryotic cell.
The topmost number of Oxidative phosphorylation motes are produced via. Chemiosmosis. This is the process whereby the NADH and FADH2 produced in the citric acid cycle and glycolysis are used in the electron transport chain. The main energy source for cellular metabolism is glucose, which is catabolized in the three posterior processes — glycolysis, tricarboxylic acid cycle( TCA or Krebs cycle), and eventually oxidative phosphorylation — to produce ATP.
The maturity of ATP conflation occurs in cellular respiration within the mitochondrial matrix, generating roughly thirty- two ATP motes per patch of glucose oxidized glucose.
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the site where most of the atp is generated in a cell is the a. nucleus b. plasma membrane c. endoplasmic reticulum d. golgi apparatus e. mitochondria
The site where most of the ATP is generated in a cell is the mitochondria.
The mitochondria are known as the "powerhouses" of the cell because they are the primary site of cellular respiration, a metabolic process that generates ATP. During cellular respiration, glucose and oxygen are oxidized to produce energy in the form of ATP.
The process of ATP production in the mitochondria is called oxidative phosphorylation, which involves the transfer of electrons along an electron transport chain, coupled with the pumping of protons across the inner mitochondrial membrane, generating a proton gradient. This proton gradient drives the movement of protons back across the membrane, which in turn powers the ATP synthase complex to produce ATP.
ATP is an important molecule in the cell, as it serves as the main source of energy for cellular processes such as muscle contraction, active transport, and protein synthesis. The high concentration of ATP produced by the mitochondria helps to sustain the energy needs of the cell.
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why is a flower of pumpkin incomplete?
Answer:
each flower is lacking either the male or female structure
Answer: The reason is because each flower is lacking either the male or female structure
Explanation:
what did the dna look like? relate what you know about the chemical structure of dna to what you observed today