The deserts are the regions of the lands, where there is a little precipitation and the temperature is generally too high during the day.
In the desert biome, the animals are adapted to dissipate heat to the environment, which make them remain cooler in the hot days. They have long appendages and long extremities, such as hear, which help them in constantly transferring the heat in their surrounding. Some animals lack fur, which allow them to remain cool, as the presence of fur would not allow the dissipation of the heat to the atmosphere.
The tundra biome is very cold, and the animals living there must have the tendency to trap heat to remain hot in the cold climate. All the desert animals are adapted to dissipate heat to the environment, so, they cannot trap heat, which makes them unfit survive in colder climates.
The organisms in a desert biome must have wide feet as as to wade through sand, this is not necessary in a tundra biome.
The term biome refer to a zone of life found on earth. The descriptions of tundra and desert biomes are shown as follows;
A tundra biome is a cold region in which trees are absent and living organisms have to survive under very cold conditions.A desert biome is covered mostly with sand and has alternating hot and cold conditions in the day and in the night.The organisms in a desert biome must have wide feet as as to wade through sand. This is not necessary in a tundra biome composed mostly of snow. Also, in a desert biome, organisms have hairy eyes to keep away sand. This is not required in a tundra biome.
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Determine whether each statement describes mitosis, meiosis, or both mitosis and meiosis.
Final answer:
Mitosis and meiosis are both cell division processes, but they differ in their mechanisms and outcomes. Meiosis includes unique stages such as prophase I and metaphase I, where homologous chromosome pairing and crossing over occur. Metaphase is a stage shared by both processes, but it functions differently in meiosis I compared to mitosis and meiosis II.
Explanation:
Comparing Mitosis and Meiosis
Both mitosis and meiosis are processes of cell division. Mitosis consists of four stages: prophase, metaphase, anaphase, and telophase, culminating in cytokinesis. In meiosis, there are two rounds of cell division, meiosis I and meiosis II, each with similar stages to mitosis, but with important differences. Meiosis is unique in that it has the stages of prophase I and metaphase I, where homologous chromosomes pair up and undergo crossing over, and anaphase I, where these homologous pairs are separated into two cells, reducing the chromosome number by half (from diploid to haploid).
Metaphase appears in both mitosis and both meiotic divisions. However, it has a unique characteristic during meiosis I where homologous chromosomes line up in pairs; in mitosis and meiosis II, individual chromosomes line up at the metaphase plate. The behavior of chromosomes during meiosis leads to genetic variation among the four haploid cells produced, while mitosis results in the production of two genetically identical diploid cells.
List two health effects Deb is experiencing. Explain how nutritional deficiencies of certain biomolecules can cause it.
Answer:
protein and vitamin deficiency
Explanation:
Deb is very skinny and she doesn’t seem to have a lot of muscles she also complains of bleeding gums and no nail growth, which are symptoms of protein and vitamin deficiency
Answer:
Explanation:
Deb is very skinny and she doesn’t seem to have a lot of muscles she also complains of bleeding gums and no nail growth, which are symptoms of protein and vitamin deficiency
The human gm. Csf gene in the mouth gm dash dsf jane buried by more than 60% in their dna sequence however the scientist place to human gene into mice it functions properly what best explains why this happens
As demonstrated by long-range mapping of restriction endonuclease recognition sequences and genomic cloning, we found that the human genes encoding interleukin 3 (IL 3) and granulocyte/macrophage colony-stimulating factor (GM-CSF) are tandemly arrayed on the long arm of chromosome 5, separated by 9 kilobases (kb) of DNA. This close physical linkage of genes with similar structure and biologic function suggests that these cytokines may have evolved from a common ancestral gene. This linkage in evolution of two relatively divergent genes further implies that some of the other lymphokine and cytokine genes that appear to share as much or more sequence similarity than do IL 3 and GM-CSF may be distantly related members of a cytokine gene family.
The main producers in an aquatic environment are
The main producers in aquatic environments are phytoplankton, which includes algae and cyanobacteria. These photosynthetic organisms form the base of the aquatic food web. They support primary consumers like zooplankton and higher-level consumers such as small fish.
In aquatic ecosystems, the primary producers are crucial for supporting the food web. The main producers in these environments are microscopic organisms collectively known as phytoplankton.
Phytoplankton includes a variety of photosynthetic organisms such as algae and cyanobacteria, which convert sunlight into energy through the process of photosynthesis.
Phytoplankton is composed of several groups, including diatoms, dinoflagellates, and coccolithophores. Diatoms, for example, are single-celled algae encased in silica shells and are highly efficient at photosynthesis, contributing significantly to marine productivity.
These producers form the base of the food web, supporting primary consumers such as zooplankton.
Zooplankton, which includes small crustaceans and other microscopic animals, feed on phytoplankton and, in turn, provide food for secondary consumers like small fish.
This intricate food web structure highlights the critical role of phytoplankton in maintaining the ecological balance in aquatic environments.
What can an individual do to deforestation
With the development of technologies and advancement in facilities, we are also disturbing nature. For example deforestation, which is cutting of trees and plants for spare land for the use of human activities.
Deforestation can have serious effects on air and water pollution, climate change, soil erosion, loss of biodiversity.
To stop this destruction due to deforestation an individual can:
Plant a tree now.Take safety and security measures for plant around you. Begin by hugging, loving a tree. And make an emotional relationship with trees.Avoid use of paper as possible.Always promote recycling.Use recycled products.Do not use firewood to heat up your fireplaces.Encourage people to live in a way that doesn’t hurt the environment.Do not buy anything from anywhere that are actively or indirectly involved in the clearing of forest land.A large city has some problems related to the availability and quality of water. Who should the authorities consult to solve this problem?
A.
an environmental engineer
B.
a waste management expert
C.
a hydrologist
D.
a soil scientist
If there is a problem to the availability and quality of water, the authorities should consult a hydrologist. This is because the problem has to do with water, and hydrologists keep track of exactly that problem, the quality and availability of water.
Answer:
hydrologist
Explanation:
The seeds of cycads develop within a A. fruit. B. pistil. C. cone. D. flower.
Answer:
The answer is D
Explanation:
How would gene expression be affected if there was an error in transcription (writing instructions)?
Gene expression is where the mRNA is made. If there's an error in transcribing the DNA into mRNA there could be a major effect on consequent gene expression if:
1. the original gene is involved in gene expression itself (e.g. the RNA polymerase)...if it's not made correctly you would have serious future problems.
2. if the original gene is for a protein involved in further gene expression (e.g. transcription factor/regulator) - if made incorrectly it may not be there to properly control gene expression so you could get other genes expressed when they shouldn't be, or not expressed when they should be.
List and describe the five environmental spheres of earth.
The following are the five major spheres of the Earth:
1. Geosphere: It comprises Earth's mantle, crust, and core, that is, the solid proportion of the Earth.
2. Biosphere: It comprises all the species on Earth, as well as, the environments in which they thrive.
3. Atmosphere: It comprises the gases surrounding the Earth.
4. Cryosphere: It comprises the ice sheets of Earth as well as the environments in which they thrive.
5. Hydrosphere: It comprises the water in Earth's seas, oceans, glaciers, rivers, lakes, and atmosphere.
During an action potential, the charge seems to “jump” from node to node rather than flow continuously down the axon, a process known as:
Saltatory Conduction
During an action potential, the charge seems to “jump” from node to node rather than flow continuously down the axon, a process known as: Saltatory Conduction .
Saltatory conduction is the faster distribution of action potentials across myelinated axons from one node of Ranvier (breaks in the wrapping of myelin insulation) to another node, which leads to increased speed of action potentials. The only area along the axon where ions are exchanged is the uninsulated nodes of Ranvier.
Which equation correctly shows the reactants and products of photosynthesis? A C6H12O6 + 6CO2 --> 6O2 + 6H2O B C6H10O6 + 6O2 --> 6CO2 + 6H2O C 6O2 + 6H2O --> C6H10O6 + 6CO2 D 6CO2 + 6H2O --> C6H12O6 + 6O2
The right option is D 6CO2 + 6H2O --> C6H12O6 + 6O2
This equation shows that carbon dioxide and water are used with light energy to produce glucose sugar and oxygen gas.
Photosynthesis is a process by which plants and other autotrophs use energy from sunlight to produce nutrients from carbon dioxide and water. Plants absorb water through the roots, carbon dioxide from the air, and light energy from the Sun, to produce glucose and oxygen.
The correct equation for photosynthesis is 6CO2 + 6H2O --> C6H12O6 + 6O2. In this complex process, carbon dioxide and water are transformed into glucose and oxygen with the help of sunlight.
Explanation:The correct equation that represents the reactants and products of photosynthesis is option D: 6CO2 + 6H2O --> C6H12O6 + 6O2. In this process, carbon dioxide (CO2) and water (H2O) are the reactants which, when exposed to sunlight, get transformed into glucose (C6H12O6) and oxygen (O2), which are the products. While the equation seems simple, it represents a complex multi-step process that plants use to convert light energy into chemical energy.
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what are the main differences between living cells and viruses
Cells are the basic units of life. They can exist by themselves, like bacteria, or apart of a larger organism, like our cells. Viruses are non-living infectious particles that are much smaller then a cell, and need a living host to reproduce. They cannot reproduce outside of a living host cell, nor can they be seen without an electron microscope.
The bacteria Lactobacillus acidophilus are frequently used in the production of yogurt. These bacteria use lactic acid fermentation when oxygen is not available. What would happen to the bacteria under anaerobic conditions if the lactic acid fermentation pathway were blocked?
A. The bacteria could no longer regenerate the NAD+ needed for glycolysis, so it would stop producing ATP.
B. The bacteria could no longer make the NADH needed for chemiosmosis, so it would stop producing ATP.
C. The bacteria could switch to using alcohol fermentation, so it would continue producing ATP.
D. The bacteria could switch to using the Kreb's cycle, so it would continue producing ATP.
The right answer is A.
Lactic fermentation is a catabolic process, a fermentation, having as a starting point glycolysis, which produces an acid, lactic acid used to reoxidize NADH to NAD+, and by the way it produces energy in form of ATP.
In other words, lactic acid fermentation is a biological process by which sugars such as glucose, fructose, and sucrose are converted into cellular energy and metabolic byproduct, lactate. It is a lactic ferment that intervenes.
Answer:
A. The bacteria could no longer regenerate the NAD+ needed for glycolysis, so it would stop producing ATP.
Translation and protein synthesis is occurring at the ribosome. If the tRNA anticodon being matched at the ribosome is AUG, what would be the matching mRNA codon?
Answer: The matching mRNA codon for AUG anticodon is - UAC.
UAC codes for tyrosine.
mRNA is converted into protein through a process called translation ( occurs in the cytoplasm of cell). During this process, tRNA ( transfer RNA) delivers specific amino acid ( carried by amino acid acceptor site of tRNA) to the ribosome that matches with the codons ( sequence of three nucleotides in mRNA).
The anticodon carried by the anticodon site of tRNA molecule is complementary ( A pairs with U and G pairs with C) to the codon present in the mRNA sequence.
Thus, UAC is the codon in the mRNA that corresponds to the anticodon AUG.
The mRNA codon that matches the tRNA anticodon AUG is UAC. This matching is based on complementary base pairing. In this case, Adenine (A) matches with Uracil (U), and Guanine (G) matches with Cytosine (C).
Explanation:In the ribosome, during protein synthesis, an mRNA codon corresponds to a matching tRNA anticodon. The anticodon and codon pairs through complementary base pairing. If the tRNA anticodon is AUG, this pairs with an mRNA codon of the sequence UAC, since Adenine (A) pairs with Uracil (U), and Guanine (G) pairs with Cytosine (C). Therefore, the mRNA codon matching the tRNA anticodon AUG would be UAC.
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Altruism refers to behavior that helps others but does not appear to help the person performing the behavior. Describe an example of altruistic behavior, and state how a psychodynamic psychologist might explain the behavior.
Answer:
This is sample from Edmentum
Explanation:
There have been many occasions when people have been good to me without expecting anything in return. I think and hope that many of my actions, too, have been out of goodwill and not with any personal motive. This happened some years ago and I believe that this has inspired me to do good deeds whenever an opportunity presents itself. My mother is a single parent and this incident occurred soon after we moved to the town that we live in currently. She had to undergo an emergency operation. We didn’t have any friends or relatives in the town. The neighbors turned out to be great people. They didn’t know us but each one of them pitched in, taking turns to invite me home for meals while my mother was hospitalized, visiting my mother at the hospital, and keeping our spirits up. That week was difficult for us but during that time, we made some incredible friends.
Altruism is a behaviour in which a person help other people, just out of desire to help, without wanting anything in return.
An example of altruistic behaviour is: Suppose you are in a bus, and you see an old woman standing, and you offer her your chair, not because you have to but out of desire to help and that makes you happy.
Explanation of altruistic behaviour as a psychodynamic psychologistAltruism is defined by many disciplines. There is no single perspective regarding altruism but rather many perspectives from different psychologist.
To begin with, psychology has found many processes by which people might learn about and care about the conditions of others.
Psychology says that, though Altruism is a kind behaviour, but it's not always true that altruism will and will not lead to helping behaviour.
Altruism is a selfless behaviour, but it's sometime leads to danger to the person who help and cause the person to feel overwhelmed.
Although it is a positive behaviour and people should keep altruistic behaviour and help people.
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A _____________ forms as a result of lava that has cooled at the top of a volcano. A. Vent b. Caldera c. Pipe d. Chamber
Answer:
B. Caldera
Explanation:
edge 2020
Explain how organisms in lakes are related through the flow of energy.
Answer
The energy flow system in the lakes is controlled by the manner aquatic organisms interact with each other.
Explanations
In lakes and ponds there is transfer and flow of energy that depends on the manner aquatic organisms interact with each other. For example, In a simple aquatic food web, phytoplankton in form of algae and aquatic macrophytes in form of plants obtain energy from the sun and convert it to energy they can use through photosynthesis. During this process, carbon dioxide, water, sugars and energy from the sun is utilized to form organic compounds in form of chemical energy. This chemical energy is then utilized for growth and reproduction.
Answer: A food chain shows how energy flows from one organism to another. In general, energy flows from the Sun to producers and then to consumers. They get energy by eating grass and leaves. Energy may be lost in living systems as it flows through them.
Explanation: EDGE 2020
A rock that forms at or near earth's surface from the cooling of lava is a(n) _____ rock.
Answer:
igneous
Explanation:
This kind of rock are the ones that are formed when the magma cool down, actually it name come from "ignis" that in Latin mean fire. There are two kind of cooling down. If the process is to fast, then it will form the volcanic rock that is quite common in some old volcanoes, or the volcanoes that was erupted.
If the process of being cold was a little bit slow, so it will form some crystal rocks.
An example is the basalt rock, a common material used in building.
HELP 20 POINTS + BRAINLIEST some muscle cells have the ability to produce more mitochondria if they are involved in regular exercise. if it happens, cellular respiration rates would increase in the individual’s cells. tell why that happens.
Oh would you look at that *cough I am close to you now.
Some cells will more mitochondria than others. The fat cells will have many mitochondria because they store a lot of energy than the others. Muscle cells also have many mitochondria, which allows them to respond quickly to the need for doing work.
· cell membranes
· large biomolecule
· many high energy bonds
· nonpolar covalent bonds
· includes waxes and steroids
· consists mainly of carbon and hydrogen
· more energy per gram than other biomolecules
The biomolecule described is a...
A) carbohydrate.
B) lipid.
C) monosaccharide.
D) protein.
The answer is B. Lipids
Hope this helps
30 POINTS
Classify the characteristics by whether they describe plants only, fungi only, or both plants and fungi.
Characteristics
-may produce seeds
-are heterotrophic
-may have aseptate hyphae
-can absorb nutrients from soil
-may have rhizomes
-can photosynthesize
-have cell walls
Answer:
Plants: produce seeds, can photosynthesize, can absorb nutrient from soil, may have rhizomes.
Fungi: are heterotrophic, may have aseptate hyphae.
Both plants and fungi: have cell walls
Explanation:
Fungi is the kingdom that includes the heterotrophic organisms. They have cell wall made of chitin. Many thread like structures called as hyphae make the fungal body. Hyphae may or may not be divided by septa.
Plants are autotrophic and make their food through the process of photosynthesis. Some plants produce seeds as a means of reproduction. Plants have roots to absorb nutrients from soil. Rhizome refers to the underground stem that resembles root and serves the function of food storage and means of asexual reproduction.
Answer:
I got a 100%
Explanation:
Describes how efficiency of cellular respiration and production of carbohydrates through photosynthesis as well as oxygen has benefitted society. Explain how the earth would appear if endosymbiosis hadn’t occurred.
Answer:
Cellular respiration is the process by which cells convert glucose into energy in the form of ATP. The process of aerobic respiration produces huge amount of ATP from each sugar molecule. Aerobic respiration takes place in eukaryotes. The reactions involved in the respiration are catabolic reactions. From the complete oxidation of one glucose molecule to carbon dioxide and oxidation of all reduced coenzymes. It generates 30-32 ATP in each cycle and used by plants, animals and humans therefore it is highly efficient and beneficial for the society. Without photosynthesis plants will not have carbohydrates for respiration.
Endosymbiosis is the hypothesis which says that prokaryotes gave rise to the first eukaryotic cell. It explains the origin of eukaryotic cell organelles such as mitochondria in animals and fungi and chloroplast in plants have evolved from prokaryotes like mitochondria has evolved from proteobacteria and chloroplast from cynobacteria. It simply defines that primitive simple organisms evolved in order to develop as complex organisms. If endosymbiosis had not occurred on earth than there would be no diversity in life forms on earth.
which structures allow fungi to obtain nutrients they need for survival?
Which layer of soil is the most newly formed? A. subsoil B. humus C. topsoil D. bedrock
Answer:
No, It Humus
Explanation:
Humus is the top layer of soil and is formed by deposits of decomposed plant material. It is the newest or youngest component of the soil. Moving down through the soil, the layers get older.
In stars that are near death, What can no longer contain fusion?
A) Electromagnetic Attraction
B)Strong Forces
C) Gravity
D) Planets
i could be wrong but my assumption for this question would be the answer of A
Option C) Gravity, not the strong nuclear, weak nuclear, or electromagnetic forces, fails to contain fusion in a dying star, potentially leading to the formation of a black hole. Gravity's overwhelming force can collapse a star's core beyond any known support, indicating its importance in both stellar life cycles and the structure of galaxies.
In stars that are near death, gravity can no longer contain fusion. In the life cycle of a star, gravity plays a crucial role in sustaining the process of nuclear fusion that powers the star. However, when a star exhausts its nuclear fuel, gravity causes the star to collapse.
For very massive stars, if the remaining mass of the star's core is more than about three times that of the Sun, no known force can prevent the star from collapsing into itself and potentially forming a black hole. A black hole's gravity is so strong that it can prevent light from leaving, which is why black holes are often detected via their gravitational effects on neighboring stars or clouds of gas and dust.
Therefore, the correct answer is C) Gravity.
Which situation would be most likely to cause a dna mutation? A. A maple tree becomes dormant to prevent water loss during a drought. B. A culture of cells is placed in a chamber and exposed to high pressure for 10 hours. C. A wood frog in a lake is exposed to temperatures below 0°c during the winter months. D. A person spends one hour each day under the ultraviolet rays of a tanning bed.
The correct answer is option D, that is, a person spends one hour each day under the ultraviolet rays of a tanning bed.
The UV, or ultraviolet light from the sun, us a non-ionizing radiation that can cause DNA mutations. It does this by making the formation of pyrimidine dimers. Direct destruction of DNA can take place when DNA directly absorbs a UVB photon.
The UVB light makes thymine base pairs next to each other in the genetic arrangements to combine together in the pyrimidine dimers. It has been shown that the patches of skin chronically exposed to sunlight exhibit up to 10 times more cancer-producing gene mutations in comparison to the skin, which is usually safeguarded from the sun.
Answer:
hi its D: a person spends one hour each day under the ultraviolet rays of a tanning bed
Explanation:
PLATO
Describe how the integumentary system responds to differences in sunlight
The integumentary system (skin) reacts different on different sun intensity (different length exposure to sun).
For example, moderate exposure to the sunlight contributes to the production of melanin and vitamin D by the body. On the other hand, high exposure to sunlight can have negative health effects such as sunburn, which is an inflammatory response to DNA damage caused by UV radiation.
How did Darwin collect data while on the Beagle? A. He collected specimens. B. He observed plants and animals. C. He recorded detailed information about the plants and animals he saw. D. All of the above
Option D is the correct answer. During the Beagle voyage, Charles Darwin spent five years traveling the world and observing the natural world around him. He collected a wide variety of specimens, including plants, animals, and fossils, and carefully documented where they were found and under what conditions.
What were the certain observations of him ?He also took extensive notes on the behavior, anatomy, and distribution of living plants and animals in their natural habitats.Darwin's observations were not limited to the living world.
He also paid close attention to geological formations and changes in the landscape, recording detailed information about the rocks, soil, and other features he encountered. He was particularly interested in the patterns he saw in the distribution of different species, as well as the similarities and differences he observed between related species.
All of the data that Darwin collected on the Beagle voyage ultimately contributed to his later development of the theory of evolution by natural selection.
Therefore, By carefully documenting and analyzing the natural world around him, Darwin was able to identify patterns and connections that had not been previously recognized, and to formulate a revolutionary new theory about how life on Earth had changed over time.
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What happens to a plant that doesn’t get enough water
HELP!!!!
What happens to the structure of the protein when the temperature rises above the functional level?
A
denatures
B
increases enzyme function
C
does not disrupt the protein structure
D
protein continues to function as normal
The correct answer is option A, that is, denatures.
The extreme temperatures lead to the unfolding of a polypeptide chain resulting in a change in composition and generally a loss of function. If the protein working as an enzyme denatures, it will make that protein to lose its enzymatic activity.
As the temperature of a solution comprising the protein is elevated, the extra heat results in bending and twisting of bonds. As proteins start to denature, the secondary composition of the protein is lost and adopts a random coil configuration. The covalent association among the amino acid side chains like disulfide bonds also gets lost.