What are the elements of a traditional poem?
Answers
Meter, rhyme, scheme, verse, and stanza are the elements of traditional poetry.
Poets who have reached a sublime state and are able to surrender themselves to their work in order to produce a poem that both builds on and stands on its own is the poetic tradition.
traditional poetry refers to verse shapes that have been around for quite a while and regularly follow a particular design. traditional poems frequently rhyme, however, rhyme is only one of the numerous primary components that might be incorporated. The poem may also be required to adhere to a particular rhythm or meter, address a particular type of subject matter, or include a particular number of lines or syllables, depending on the type. The form of traditional poetry must be strictly adhered to.
Know more about traditional poems here: https://brainly.com/question/21867529
#SPJ4
Related Questions
Pollution: What's in the Citarum River?
What chemicals and objects are found in this river?.
Answers
dioxins and hydrocarbons
look at the following images, then in your own words, describe how they are different.
Answers
Answer:
they have different locations of where the foods are located
How long it will take for one full base pair mutation to occur
Answers
Answer: about 22.5 million years.
Explain why hypothesis is not an educated guess ?
Answers
Answer:
Unlike a wild guess, a hypothesis is based on observations and it must be testable.
Explanation:
Answer:
because its testable
Explanation:
because You are guessing what the final outcome will be with whatever knowledge you knew or researched.
also and educated guess is based on what you know but it isn't testable.
like i think the sky is blue because i saw it.
vs
if i get people to look at the sky then i will determine if it is blue or not
A point mutation that changes a codon specifying an amino acid into a stop codon is called a-
A. missense mutation
B. nonsense mutation
C. frameshift mutation
D. silent mutation
Answers
Match the terms below with the description of their purpose in the Nüsslein-Volhard & Wieschaus screen.
1. Balancer Chromosome
2. Features visible on the cuticle that allowed patterning to be seen
3. Chemical used to generate mutations
4. Mutation that allows removal of heterozygotes with unwanted chromosomes
POSSIBLE CHOICES:
EMS
CyO
denticles
DTC-91
Answers
The purpose of the given terms in the Nüsslein-Volhard & Wieschaus screen are:
1. Balancer Chromosome: Mutation that allows removal of heterozygotes with unwanted chromosomes.2. Features visible on the cuticle that allowed patterning to be seen: Denticles3. Chemical used to generate mutations: Ethyl Methanesulfonate (EMS)4. Mutation that allows removal of heterozygotes with unwanted chromosomes: CyOWhat is the Nüsslein-Volhard & Wieschaus screen?The Nüsslein-Volhard & Wieschaus screen is a mutagenesis screening technique that was developed by Christiane Nüsslein-Volhard and Eric F. Wieschaus in 1980 to identify genes necessary for Drosophila melanogaster (fruit fly) development. The genes discovered by the screen are mainly involved in pattern formation along the anterior-posterior axis of the Drosophila embryo. The method involves the use of ethyl methanesulfonate (EMS) to generate mutations and balancer chromosomes to prevent lethal effects of mutations on the organism. The screen relies on the identification of visible markers like denticles on the cuticle of the embryo to track and classify mutations.
to know more about Wieschaus visit :
https://brainly.com/question/31413967
#SPJ11
2. How would the amount of oxygen absorbed by the cells be different in an athlete who is blood doping, compared to a normal athlete?
Answers
Answer:
in an athlete that os blood doping there wooed be more oxygen absorbed-by the read blood cells and will get less
Blood doping frequently results in an increase in the level of hemoglobin in the blood. An oxygen-carrying protein found in blood is called hemoglobin. The red blood cells of an athlete who uses blood doping should absorb more oxygen and will get less.
What is blood doping of athlete?Blood doping is a type of doping in which more red blood cells are added to the bloodstream to improve sports performance.
An athlete's aerobic capacity (VO2 max) and endurance can be enhanced by having more of these blood cells, since they transport oxygen from the lungs to the muscles.
Athletes in a range of endurance sports, such as swimming, cycling, and skiing, use blood doping.
Some people view the use of plasma injections by athletes in other sports as a sort of blood doping because they help them recover physically faster between competitions.
Therefore, amount of oxygen absorbed by the cells be different in an athlete who is blood doping, compared to a normal athlete.
Learn more about blood doping of athlete.
https://brainly.com/question/13576360
#SPJ2
What do the wavy lines stand for with a ATP model???
Answers
Two or more species living together in a close, long-term relationship is called
Answers
Answer:
a partnerd relashinship
Explanation:
Which of the following is an energetic trade-off in natural selection? Question 47 options: high survival rates of offspring and the cost of parental care choosing how many offspring to produce over the course of a lifetime and how long to live increasing the number of individuals produced during each reproductive episode and a corresponding decrease in parental care producing large numbers of gametes when employing internal fertilization versus fewer numbers of gametes when employing external fertilization
Answers
Answer:
high survival rates of offspring and the cost of parental care
Explanation:
Animals must optimize the energy invested in growing, surviving, reproducing, and leaving fertile offspring. They must ensure the perpetuity of the species. The best manner of doing it is by reaching sexual maturity, mating, and leaving progeny that also reaches their fertile age. So sometimes, they need to "decide" or "choose" where to invest more energy.
Those that "decide" to take care of their offspring invest too much energy in doing it. Parents must feed them, an activity that requires most of their energy to produce food or look for it. They must protect their progeny from potential opportunistic predators, so they need to be near the whole time. They need to teach behaviors and habits. And so many other things that require energy investment.
So, where do parents take all this energy from? The energy that is usually destined for survival and mating activities, is now destined for parenting. Often, parents can not feed properly because they can not leave their offspring alone. They face predators putting themselves in danger of being hurt. They can not mate even if they are in the reproductive season.
This is the Cost-benefits energetic trade-off.
Which is the benefit? To ensure the progeny survival, to make them reach their sexual maturity, and to reproduce too. They do it to ensure the perpetuity of the species.
So these species "choose" to have reduced offspring and to take care of them. Many other species "choose" to have many descendants and to avoid parental care. They invest their energy in surviving and reproducing.
Why is one strand of the DNA upside down?
Answers
Answer:
One strand of DNA is upside down due to the nitrogen bases or organic bases joining the sugar molecule at carbon 1.
Explanation:
What are monomers or building blocks of proteins, nucleic acids, carbohydrates and lipids?
Answers
Answer:Carbohydrates provide energy to the body, particularly through glucose, a simple sugar ... Lipids are also the building blocks of many hormones and are an important constituent of the plasma membrane ... Amino acids are the monomers that make up proteins. Nucleic acids are key macromolecules in the continuity of life.
Hope this helps!!! Brainlist plz?
Smoking reduces the surfactant layer in the alveoli. This would cause which of the following to occur? (2 points)
A. Depressed macrophage activity
B. Destroyed red blood cells
C. Reduced ability of gases to diffuse through the water layer
D. Reduced ability of gases to enter or exit the alveolar space
Answers
Answer:
B
Explanation:
destroyed red Blood cells
What differentiates passive transport from active transport?
A. Proteins have a role in passive transport.
B. Molecules move down a concentration gradient during passive transport.
C. Passive transport involves molecules moving across the cell membrane.
D. ATP is needed for passive transport to occur.
Answers
Answer:b
Explanation:
a substance with a pH of two is called
Answers
Answer:
an acidic substance
in my laboratory, i measure a precise number of house fly eggs before placing them in their larval medium (larval food). if i were to measure incorrectly and add twice the normal number of eggs, it is likely that fewer resultant adult flies would be produced in the next generation. this is an example of:
Answers
This is an example of density-dependent mortality. Density-dependent mortality occurs when a population experiences increased mortality due to increased population density.
In this case, adding twice the normal number of eggs to the larval medium would likely result in a higher density of larvae, which could lead to increased competition for resources (such as food) and increased mortality. This, in turn, could lead to fewer resultant adult flies in the next generation. Density-dependent mortality is a common mechanism of population regulation in many species, as it helps to prevent populations from growing too large and overwhelming their environment's carrying capacity.
To know more about larval,
https://brainly.com/question/1675329
#SPJ11
How do these tape worms defend themselves from the immune system of their host
ck-12:Unwanted Company
Answers
Answer:
Scientists discovered mechanisms that protect tapeworms from being digested by their host. ... They also needed a mechanism to protect themselves from intestinal substances, specifically from digestive enzymes. One of such enzymes called trypsin breaks down proteins.
Explanation:
For example:Parasites can hide away from the immune system by invading immune-privileged tissue such as the central nervous system or the eye (Bhopale 2003). Also some parasitoids place their eggs inside tissue such as the fat body that is not well patrolled by the host's immune system
*THIS IS CONFUSING PLEASE ANSWER!!!, I'LL GIVE BRAINLIEST*
Which is the correct zooplankton size variation from smallest to largest?
a.) megaplankton, picoplankton, microplankton, nanoplankton
b.) picoplankton, nanoplankton, mesoplankton, macroplankton
c.) microplankton, nanoplankton, picoplankton, mesoplankton
Answers
Answer:
b
Explanation:
its the closest out of all the choices
its actually
pico
nano
micro
meso
Answer:
B.) Picoplankton, nanoplankton, mesoplankton, macroplankton.
Explanation:
Took the Module 1 Exam.
4. What are the limitations in generalizing findings from model organisms to human biology?
Answers
Answer:
d
Explanation:
What is the difference between a species and a population?
Answers
Answer:
population is the number of something and species is something like a human or animal
Explanation:
A population is defined as a group of organisms of the same species that live in a particular area. There can be more than one population living within any given area. While a species is a group of organisms that share similar characteristics and a species can live within many different areas.
I hope this helps!
In the study of earth and space, we use the idea of uniformitarianism to conclude many things about objects beyond earth. This is the assumption that.
A) the composition of space is the same everywhre. B) the elements on earth exist everywhere in the universe. c) the rate at which objects change is the same everywhere. D) the same laws and processes apply everywhere in the universe and have in the past.
Answers
Answer:
D)
Explanation:
The idea of uniformitarianism is important to understand the changes or history of earth and it states that earth undergoes uniform changes in the past and present.
The idea of uniformitarianism also concludes many things about objects beyond earth which states that the laws and processes remain the same everywhere in the universe and have in the past. Uniformitarianism says that rate of the process remains uniform through time.
Hence, the correct option is "D)"
What differences do insects and arachnids have?
Answers
Answer:
The main difference between the two is that arachnids have eight legs (four pairs of legs) while insects have six (three pairs of legs).Another clear difference is that arachnids don't have antennae or wings all insects, though, have antennae, and also have wings
Explanation:
HOPE IT'S HELPFUL FOR U MATE
Making changes to the secondary structure of hair has a different outcome than making changes to its tertiary or quaternary structure. How does this outcome differ
Answers
The outcome differs in the way that the protein folds itself at each level. The changes in the way that it folds lead to:
modifications in the function, shape or in the combination with other proteins.
Protein has different levels of structure. Each of them is related to how the amino acids and other molecules interact with each other. Hair is made of proteins, so if one of the structures is affected, the hair is too.
Let's analyse what happens in each level of structure:
In the case of the primary structure, which is the sequence of amino acids, the modification will give a non-functional protein that will not fold into the following structural level. So, there won't be new hair.For the secondary structure, a modification here can lead to a different folding. In other words, it can change from an α helix to a β pleated sheet or the other way round. This will give a different shape to the hair, like curly or straight.A modification in the tertiary structure modifies the interaction of the R groups in the protein, so the three-dimensional structure that this interaction gives will change, giving a different type of hair.Lastly, if we modify the quaternary structure, the protein won't interact with some proteins, but it may interact with others.
In conclusion, the modification of the secondary structure changes the interaction between the elements of the protein giving hair with different shapes.
Learn more at:
https://brainly.com/question/1548720?referrer=searchResults
Answer:
Changes in secondary structure are temporary, while changes to tertiary or quartenary structure are permanent.
A researcher is viewing a cell that has cell walls. Which question would BEST help the researcher to narrow down the taxonomic group to which the cell belongs ?
Answers
Answer:
Does it have a nucleus?
Explanation:
Bacteria and Archaea have cell walls but no nuclei
Plant cells (Eukarya) have cell walls and a nucleus.
But remember not all eukaryotes have cell walls
How do sprouting plants exhibit positive gravitropism? A. The roots turn downward. B. The roots move horizontally. C. The leaves face toward the Sun. D. The stems curl around supports.
Answers
Answer:
C
Explanation:
what will happen to the rate of photosynthesis if the size of the stomata is increased?
Answers
Answer:
The increase in stomatal density translates to an increase in gs and 30% greater photosynthetic rate under high-light conditions
Explanation:
The bending of which body part involves the working together of parts of the skeletal, muscular, and nervous systems?
Answers
Answer:neck
Explanation:
The bending of the neck involves the cranial nerves ,muscles and also vertebral skeletal system
PLZ HELP! why it is important to base scientific theories and models on empirical evidence as opposed to other ways of knowing such as religion?
Answers
Answer:
A theory not only explains known facts; it also allows scientists to make predictions of what they should observe if a theory is true. Scientific theories are testable. New evidence should be compatible with a theory.
Explanation:
the higher plant symbiont benefits from the mycorrhizal relationship by principally obtaining which of the following from the fungus.
Answers
Mycorrhizal relationships are mutualistic relationships between fungi and plant roots. The fungus forms a network of hyphae that is much larger than the roots of a single plant. In this way, the fungus can help plants access nutrients that would otherwise be unavailable.
Most fungi get carbohydrates from plants in exchange for nutrients that they've gathered. A mycorrhizal relationship is a good example of this. The fungus gets carbohydrates from the plant, which it uses for energy. In return, the fungus helps the plant absorb water and nutrients from the soil.
Because of the mycorrhizal relationship, plants are able to access nutrients that would otherwise be unavailable to them. The fungus is also able to get carbohydrates that it wouldn't be able to get otherwise. This makes the mycorrhizal relationship a very beneficial one for both parties involved.
To know more about mutualistic visit:
https://brainly.com/question/28041405
#SPJ11
Describe the causes of variation in a population.
a
Answers
Answer:
mutations, gene flow, and reproduction