A. energy. Good Luck
Answer:
Waves transport energy over distances.
Explanation:
Which form of reproduction results in the highest degree of genetic variation among offspring?
The correct answer is: sexual reproduction
Sources of genetic variation are different:
• Genetic mutations-random and rare events that occur within the genome and contribute to variations among individuals (or population). Mutations might be neutral, harmful or beneficial when they form new alleles favored by natural selection.
• Crossing over (genetic recombination)-event that occur during the meiosis (cell division that creates gametes)
• Random segregation during meiosis
• Random fertilization
• External source such as transposable genetic elements or retroviruses.
Which tissues make voluntary movement possible?
skelatal muscle makes volntary movement possible
Which of the following statements about insulin or its effects on the body are true?
Select all that apply.
Insulin enters the cytoplasm of cells, signaling the nucleus to make more glucose.
A net result of insulin is that body cells take up fewer glucose molecules.
When releasing insulin, the pancreas is acting as an endocrine gland.
Insulin binds to receptor proteins found in the cell membranes of many types of body cells.
Answer:
When releasing insulin, the pancreas is acting as an endocrine gland.Insulin binds to receptor proteins found in the cell membranes of many types of body cells.Explanation:
Endocrine glands secrete hormones directly into the blood. This is the case for the pancreas that releases insulin into the blood to regulate blood sugars. Most cells in the body have insulin receptors. However, liver and muscle cells have many of them. This allows these cells to uptake glucose and stores them as glycogen for use when energy is required in high demand.
The true statements about insulin or its effects on the body are: When releasing insulin, the pancreas is acting as an endocrine gland. Insulin binds to receptor proteins found in the cell membranes of many types of body cells, hence options C, and D are correct.
The islets of Langerhans release insulin when blood sugar levels increase, as they do after eating.
This hormone facilitates the body's cells' ability to absorb sugar from the circulation. Along with preventing the liver from creating additional sugar, insulin also enables the liver and muscles to retain sugar.
Learn more about insulin, here:
https://brainly.com/question/28209571
#SPJ6
If you have type O blood, what your possible genotypes?
Their genotype is either AA or AO
Services are produced and consumed at the same time and cannot be detached from their provider. this characteristic of service is called _____. reliability variability inseparability perish ability intangibility
its called service inseparability.
A milestone can be a deliverable but it need not be. true or false
Prokaryotes are considered by the scientific community as the most ancient life-forms on Earth. Yet, these primitive cells share many common characteristics with the more modern eukaryotes. However, one significant difference between these two cell types is that only eukaryotes contain...
A. membrane-bound compartments to carry out specialized functions
B. a selectively-permeable cell membrane to maintain homeostasis
C deoxyribonucleic acid (DNA) to serve as a template to produce proteins
D. a rigid cell wall which provides structure and support
There are two kingdoms of prokaryotes. These are the bacteria (or eubacteria ) and the archaebacteria (or the Archaea ). The members of these two kingdoms appear similar in shape and appearance, even under the extreme magnification of the electron microscope . the answer is c
Prokaryotes and eukaryotes differ significantly particularly in the presence of membrane-bound compartments, or organelles, which are only found in eukaryotes. These organelles allow for the compartmentalization of cellular processes, promoting efficiency and specificity. This complexity in eukaryotes has enabled them to evolve into multicellular life-forms.
Explanation:
Yes, a significant difference between prokaryotes and eukaryotes is that only eukaryotes contain membrane-bound compartments, or organelles, that carry out specialized functions. These include the nucleus, mitochondria, the endoplasmic reticulum, and the Golgi apparatus, among others. Prokaryotes, on the other hand, have their DNA free floating in the cell within a region called the nucleoid and lack other internal membrane-bound organelles.
The presence of these organelles in only eukaryotes allows for the compartmentalization of cellular processes, enhancing the efficiency and specificity of these processes. Membrane-bound organelles perform specific tasks such as protein synthesis, energy production, and waste processing and disposal, aiding in the effective functioning of eukaryotic cells.
Although prokaryotes like bacteria and archaea have been on Earth much longer than eukaryotes, the latter's enhanced complexity, yielded from their organelles, has allowed them to form multicellular, complex life-forms such as plants, animals, and fungi.
Learn more about Prokaryotes vs Eukaryotes here:https://brainly.com/question/35377465
#SPJ2
Body parts of organisms that are similar in structure but not in function is called what
Similar body parts may be homologies or analogies. Both provide evidence for evolution. Homologous structures are structures that are similar in related organisms because they were inherited from a common ancestor. These structures may or may not have the same function in the descendants. Analogies is a comparison between two things, typically for the purpose of explanation or clarification.
Body parts of organisms that are similar in structure but serve different functions are called homologous structures. These are crucial for understanding evolutionary relationships, in contrast to analogous structures, which look similar due to similar environmental adaptations rather than shared ancestry.
Explanation:The body parts of organisms that are similar in structure but different in function are known as homologous structures. For instance, the bones in a whale's flipper are homologous to those in the human arm, showcasing similar embryonic origins, but they perform different functions. These structures can often provide significant clues to the evolutionary history of an organism. However, it is crucial to differentiate between homologous and analogous structures, which are similar due to convergent evolution and environmental constraints, not a common ancestry. For example, the wings of a bird and those of a butterfly are analogous, as they serve the same function of flight, but do not derive from a common ancestor.
Comparative anatomy plays a pivotal role in the study of both homologous and analogous structures, offering insights into evolutionary changes and the adaptive nature of species. Vestigial structures, such as the wings on flightless birds or hind leg bones in whales, are also a focus within this field, as they are remnants that suggest a different use in an ancestor.
Over time, color variation in a population of butterflies declined. The number of color variations within the population was twelve in 1985. In 2005, the number of color variations reduced to three.
What type of selection is responsible for reducing variation?
A.
disruptive selection
B.
artificial selection
C.
directional selection
D.
stabilizing selection
Answer:
stabilizing selection
Explanation:
got it right on study island
Stabilizing selection limits the potential for further evolution in that direction by reducing genetic diversity within particular characteristic combinations. Thus, option D is correct.
What are the factor that affect the stabilizing selection?When natural selection promotes a typical phenotype and rejects extreme deviations, stabilizing selection causes a reduction in genetic variety within a population.
In directional selection, a population's genetic variation alters in response to environmental changes to a new phenotype.
When natural selection promotes a typical phenotype and rejects extreme deviations, stabilizing selection causes a reduction in genetic variety within a population.
When subjected to environmental changes, a population's genetic variation moves toward a new phenotype.
Therefore, stabilizing selection type of selection is responsible for reducing variation.
Learn more about stabilizing selection here:
https://brainly.com/question/28095656
#SPJ2
What kinds of genetic mutations can lead to cancer? Only frameshift mutations, because they are most severe Any mutation of the DNA or mRNA Mutations in sequences that control the cell cycle
It would be any mutation of the DNA or mRNA mutations in sequences that control the cell cycle because mutations are caused for an error in DNA since DNA contains all your traits and genes.
HOPE THIS HELPS
The large surface area in the gut directly facilitates _____.A) secretionB) absorptionC) filtrationD) temperature regulation
D) temperature regulation
50PTS and brainliest!
type a paragraph explaining how the atoms in sugar molecules can be used to form amino acids and other large carbon-based molecules.
The sugar molecules thus formed contain carbon,hydrogen, and oxygen: their hydrocarbon backbones are used to make amino acids and to make other carbon based molecules that can be assembled into other large molecules.
Sugar molecules, through metabolic processes, can provide the carbon skeletons necessary to synthesize amino acids, which then polymerize to form proteins. These processes enable sugars to not only fuel cellular activities but also to be the basis for creating a diverse range of biomolecules critical for life.
The atoms in sugar molecules can be transformed through various metabolic processes to form amino acids and other large carbon-based molecules. This is because sugars contain the element carbon, which is a versatile building block for many types of larger biomolecules necessary for life.
For instance, through a series of enzymatic reactions, cells can break down glucose (a simple sugar) to generate energy and obtain carbon skeletons for biosynthesis. These carbon skeletons can then be rearranged to synthesize specific amino acids, which are the monomers of proteins.
Some amino acids can be produced directly from components of the carbohydrate metabolism pathways, such as pyruvate or the intermediates of the Citric Acid Cycle.
Once amino acids are synthesized, they can undergo polymerization through the formation of peptide bonds, resulting in long chains that fold into specific three-dimensional structures to become functional proteins.
Proteins not only serve as structural components but also perform vital functions such as catalyzing biochemical reactions as enzymes, serving as transport molecules, or acting as hormones.
Additionally, other metabolic pathways can convert sugars into nucleotides for the synthesis of RNA and DNA, or fatty acids which are key structural elements of cell membranes and energy storage molecules.
The gene for curled ears (C) is dominant over the gene for straight ears (c). What percent of the offspring would be expected to have curled ears as a result of a cross between a heterozygous cat (Cc) and a straight eared cat (cc) ? 100% 75% 50% 25%
you can find your answer by making a punnet square, but the correct answer is 50%
The percent of the offspring with curled ears as a result of a mating between Cc x cc is 50%.
What is a Punnett square?A Punnett square is a graphical representation of the gametic combinations after a genetic mating.
The Punnett square can be useful to obtain the genotypic and phenotypic proportions from a cross.In conclusion, the percent of the offspring with curled ears as a result of a mating between Cc x cc is 50%.
Learn more on the Punnett square here:
https://brainly.com/question/3522181
#SPJ2
Which three amphipathic lipids are present in the cell membrane?
phospholipids, glycolipids, and sterols
The three amphipathic lipids present in the cell membrane are phospholipids, sphingolipids, and cholesterol. These components are crucial for the membrane's structure, with phospholipids forming the bilayer, sphingolipids contributing to cell recognition, and cholesterol modulating membrane fluidity.
Explanation:Three amphipathic lipids that are present in the cell membrane are phospholipids, sphingolipids, and cholesterol. Phospholipids, as the principal component, are composed of a hydrophilic head and two hydrophobic tails, allowing them to form the characteristic lipid bilayer of cell membranes. Sphingolipids, which also contain an amino alcohol sphingosine, play roles in cell recognition and signaling. Cholesterol modulates the fluidity and stability of the membrane.
Amphipathic molecules like phospholipids have both hydrophilic (water-loving) and hydrophobic (water-fearing) regions. The hydrophilic head faces the aqueous environments inside and outside the cell, while the hydrophobic tails face each other, forming the interior of the membrane—which is impermeable to most water-soluble substances.
Please fill in the table below, indicating how many chromosomes and DNA molecules there are in one cell at the end of each of the different stages of mitosis or meiosis for an organism that has a diploid chromosome number 2N = 8. Remember that for some phases there will only be one cell, and for some, there will be two cells. Give me the number of chromosomes and DNA molecules that are present in one cell, regardless of how many cells are present at that time, at the end of the specified stage of mitosis/meiosis.Please fill in the table below, indicating how many chromosomes and DNA molecules there are in one cell at the end of each of the different stages of mitosis or meiosis for an organism that has a diploid chromosome number 2N = 8. Remember that for some phases there will only be one cell, and for some, there will be two cells. Give me the number of chromosomes and DNA molecules that are present in one cell, regardless of how many cells are present at that time, at the end of the specified stage of mitosis/meiosis.
At the end of mitosis the cells will have 8 chromosomes because mitosis makes an identical diploid cell. At the end of meiosis the cells will have 4 chromosomes because meiosis makes 4 genetically different haploid cells.
Hope this answers the question.
Final answer:
Chromosome and DNA content vary through mitosis and meiosis. Mitosis results in two diploid daughter cells with the original DNA content, while meiosis leads to four haploid cells with half the original DNA content.
Explanation:
Chromosome and DNA Content During Mitosis and Meiosis
For an organism with a diploid chromosome number of 2N = 8, during mitosis, all stages (prophase, metaphase, anaphase, and telophase) end with cells containing 8 chromosomes and 16 DNA molecules (since each chromosome consists of two sister chromatids after DNA replication) inside one cell. At the completion of cytokinesis, two diploid daughter cells are produced, each with 8 chromosomes and 8 DNA molecules (because the sister chromatids are distributed into each cell).
Differentiating from mitosis, meiosis includes two rounds of cellular division, meiosis I and meiosis II. After DNA replication, a cell entering meiosis I would also have 8 chromosomes but with 16 DNA molecules due to each chromosome having two sister chromatids. The conclusion of meiosis I results in two cells each with 4 chromosomes (1N - haploid number) but still with 8 DNA molecules because sister chromatids have not yet separated. Meiosis II culminates in four cells each with 4 chromosomes and 4 DNA molecules, since sister chromatids separate during this phase, reducing the DNA content per cell while maintaining the haploid number of chromosomes.
Understanding the changes in chromosome and DNA quantity during mitosis and meiosis is crucial for comprehending genetic inheritance and cellular reproduction. Sexual reproduction relies on meiosis to produce gametes with half the diploid number of chromosomes, ensuring genetic diversity and maintaining the species' characteristic chromosome number upon fertilization.
What are the main causes of deforestation?
Check all that apply!!
A) air pollution
B) mining
C) cattle ranching
D) water pollution
E) logging
Answer:
B) mining
C) cattle ranching
E) logging
Explanation:
Deforestation is the process of destroying a forest and replacing it with something else, especially by an agricultural system. Deforestation is done to make land available for other uses such as plantations and pastures. The main causes of deforestation are mining, logging and cattle ranching. Other causes include agriculture (cash crops), oil and gas extraction, development (housing and urbanization) and lack of law enforcement.
Answer:
B) mining
C) cattle ranching
E) logging
Explanation:
What makes pelicans and penguins different?
a. pelicans are flightless birds.
b. pelicans spend about three-quarters of their lives in the water.
c. penguins have large bills with a loose and elastic pouch.
d. penguins have wings shaped for swimming.
D penguins have wings shaped for swimming
Answer:
Penguins have wings shaped for swimming
Explanation:
got it right on the exam
Which body system is responsible for breaking down food molecules so that they are small enough to be used by cells?
excretory system
endocrine system
digestive system
circulatory system
While gutting a fish, Nathan encountered an air-filled sac-like structure. What is the purpose of this structure in fish?
A.
It enables fish to breathe in water.
B.
It serves as a reserve space to store fat.
C.
It harbors bacteria that benefit the fish.
D.
It provides buoyancy to the fish.
D. It provides buoyancy to a fish.
This air pocket is known as the swim bladder, and also called air bladder. This is a buoyancy organ possessed by most bony fish. The air bladder is located in the body cavity and is derived from an out pocketing of the digestive tube.
Answer:
D. It provides buoyancy to a fish.
Explanation:
Which of the following statements is NOT true about gamete formation in mammals?A. Only one of the four cells resulting from meiosis goes on to become an oocyte.B. In the female, the separation of cytoplasm is unequal during meiosis.C. The polar bodies formed during meiosis in the female can participate in fertilization with sperm.D. Only one of the four cells resulting from meiosis goes on to become an egg, which becomes a zygote upon fertilization by a sperm cell.E. The cytoplasm is diminished during development of sperm, and a flagellum is formed to give sperm locomotion.
thanks again and again I will give it to you
The statement that polar bodies can participate in fertilization with sperm is not true. In oogenesis, polar bodies are reabsorbed and do not engage in fertilization. Spermatogenesis results in mature sperm cells with locomotion for fertilization, while oogenesis yields one viable ovum that can form a zygote upon fertilization.
Explanation:Among the given statements about gamete formation in mammals, the one that is NOT true is C. The polar bodies formed during meiosis in the female can participate in fertilization with sperm. During oogenesis, the unequal division of cytoplasm results in the creation of one large ovum and smaller polar bodies. These polar bodies do not participate in fertilization and are eventually broken down and reabsorbed by the body.
In contrast, spermatogenesis results in four haploid spermatids from a primary spermatocyte, each going on to form a mature sperm cell capable of fertilization. The mature sperm cells are characterized by a compact head and a flagellum providing locomotion, which is essential for reaching and fertilizing the ovum.
When fertilization does occur, the secondary oocyte completes meiosis II, giving rise to a viable ovum and a second polar body, which also does not participate in fertilization. The fusion of sperm and the mature ovum forms a zygote with the necessary genetic material to develop into a new organism.
What happens as a result of ion flow at a presynaptic terminal?
The correct answer is: Release of neurotrasmitters from the synaptic vesicles
Action potential travels through the membrane of the presynaptic cell causing the channels permeable to calcium ions to open. Ca2+ flow through the presynaptic membrane and increase the Ca concentration in the cell which will activate proteins attached to vesicles that contain a neurotransmitter (e.g. acetylcholine), Vesicles fuse with the membrane of the presynaptic cell, thereby release their contents into the synaptic cleft-space between the membranes of the pre- and postsynaptic cells.
How many atp equivalents are consumed in the conversion of each of the following to a glucosyl residue in glycogen?
Dihydroxyacetone phosphate - 1
Fructose-1,6-bisphosphate - 1
Pyruvate - 13
G-6-P - 1
Explanation;1) Dihydroxyacetone phosphate = 1
G1P + GTP --> UDPG + PPi two P is equivalent to 2 ATP --->2 ADP + Pi) Therefore, two ATP equivalents - but UDP is the product and only one P needed
2 DHAP --> F1,6-BP -->F6P --> G6P -->G1P -->UDPG --> glucosyl residue
2) Fructose 1,6-bisphosphate = 1
3) Pyruvate = 13
2 pyr + 2 ATP --> 2 OAA
2 OAA + 2 GTP --> 2 PEP
2 PEP --> 2 2PG --> 2 3PG
2 3PG + 2 ATP --> 2 1,3 BPG
2 1,3 BPG + 2 NADH --> 2 G3P
2 NADH = 6 ATP
2 G3P --> DHP + G3P --> FDP -- > F6P + P
F6P --> G6P --> G1P
G1P + UTP --> UDPG + PP
4) Glucose-6-phosphate = 1
G6P -->G1P G1P + UTP --> UDP-GLC + 2 Pi
UDP-Glc + glycogen --> glycogen+ 1 Glc
Recessive sex-linked traits such as color blindness appears less frequently in females because A Females have fewer sex chromosomes B females do not carry alleles for sex-linked alleles C females do not transmit sex-linked alleles D females inherit two sex-linked alleles
its D
colorblidness is carried on the X cromasome. since it is resessive it can be covered up. woman have 2 X cromasomes so both have to have it or she wont be color blind. men only have one X cromasome so its more likely that their just one X can have it
Most people with hemophilia are: a. Female c. Elderly b. From southeast Asia d. Male Please select the best answer from the choices provided A B C D
D. Male. Why this is, is because it is hereditary and mostly the males are the ones that get it.
Answer:
a
Explanation:
How can a recessive gene show back up after several generations
Recessive traits like red hair can skip generations because they can hide out in a carrier behind a dominant trait
A taxon that does not include the last common ancestor of all its members is a _____ group.
A monophyletic taxon is also called a clade. Paraphyletic taxon : A group composed of a collection of organisms, including the most recent common ancestor of all those organisms. Unlike a monophyletic group, a paraphyletic taxon does not include all the descendants of the most recent common ancestor.
Does this help?
please help me with this question
image attached
ur answer is gametophyte
What should be true of fossils of the earliest tetrapods?
A) They should show evidence of internal fertilization.
B) They should show evidence of having produced shelled eggs.
C) They should indicate limited adaptation to life on land.
D) They should be transitional forms with the fossils of chondrichthyans that lived at the same time.
E) They should feature the earliest indications of the appearance of jaws.
C) They should indicate limited adaptation to life on land.
The earliest tetrapod fossils should primarily display limited adaptations for a terrestrial lifestyle, such as primitive limbs structured for swimming rather than walking. Other developments, like internal fertilization and shelled eggs, are important in tetrapod evolution but may not be evident in the very earliest fossils.
Explanation:Fossils of the earliest tetrapods should primarily indicate limited adaptation to life on land. This is because tetrapods were the first vertebrates to make the critical evolutionary leap from water to land, and thus their initial adaptations to a terrestrial lifestyle would not have been highly refined. The earliest tetrapods, for instance, may still have had limbs structured for swimming rather than walking, and may not yet have fully developed structures like feet with digits.
While internal fertilization and the production of shelled eggs are notable developments in the evolution of tetrapods, these features may not necessarily be evident in the earliest tetrapod fossils, as they represent subsequent adaptations for terrestrial life. Similarly, jaw's appearance and transitional forms with chondrichthyans are not exclusively related to the initial transition of tetrapods to land life.
Learn more about Earliest Tetrapods here:https://brainly.com/question/30903388
#SPJ3
Which of the following is not true concerning the flow of energy through an ecosystem? a. Most solar energy is used in photosynthesis. b. Photosynthesis and cellular respiration are performed by plants. c. Not all solar energy is used for photosynthesis. d. Most of the energy from photosynthesis flows out as heat. Please select the best answer from the choices provided
D. Most of the energy from photosynthesis flows out as heat :)
Answer:
D the organisms at the bottom of the chain collect the most energy at 90% and the rest get only 10% going up
Explanation:
A 7 year old child is admitted to a hospital with jaundice but released when the doctors learn that the child recently drank a lot of sunny d and carrot juice. explain what jaundice is, what caused it in this case, what other problems may jaundice indicate and why he was ultimately released.
so confused on that question