A specific location in America produces electricity only from fossil fuels and geothermal energy. The table below shows the amount of methane in the atmosphere of the location from 1960 to 2000. Based on the table, which of these conclusions is most likely correct about the period between 1980 and 1990? Electricity was generated only from fossil fuels. Electricity was generated only from geothermal energy. Several fossil fuel units were replaced by geothermal units. Several geothermal units were replaced by fossil fuel units.
Answers
Answer:
Several fossil fuel units were replaced by geothermal units.
Explanation:
Though geothermal units also release methane - along with several other pollutants - they release FAR less than a fossil fuel plants.
From the table we can conclude that, several fossil fuel units were replaced by geothermal units.
What is fossil fuel?
A fossil fuel is a non renewable energy obtained from hydrocarbons. This type of energy source releases lots of green house gases into the atmosphere.
The energy obtained from geothermal energy is clean and does not release green house gases into the atmosphere.
Thus, from the table we can conclude that, several fossil fuel units were replaced by geothermal units.
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Related Questions
Choose which are qualities common to all respiratory surfaces.
a. The respiratory surface into contact with air or water
b. The surface has a moist membrance
c. The respiratory surface interfaces with a closed circulatory
d. The surface is within either paired or unpaired lungs
e. Carbon dioxide diffuses from the enviorment into the animal body across the respiratory surface
f. Gas exchange occurs across a large surface area
g. Oxygen diffuses from the animal body into the enviorment across the respiratory surface
Answers
Answer:
The options B and F are common for all respiratory surfaces.
Explanation:
All respiratory surfaces are involved in some form of gas exchange.
So firstly, the respiratory surface needs to have a moist membrane to be able to get the gases to diffuse properly. Option B is correct.
The surface area must be large and the surface of the respiratory system must be thin so that the maximum amount of gas can be diffused for increased efficiency. Option F is correct.
I hope this answer helps.
a. The links joining monosaccharide residues in a polysaccharide are called ____________________ bonds.
Answers
Answer: Glycosidic bonds.
Explanation:d
Glycosidic bonds are covalent bonds that join monosaccharides or longer glucose chains to other monosaccharide or carbohydrates to form disaccharides, oligosaccharides and polysaccharides and are named according to the type of the atom present on the second carbohydrate to be linked. The bond is usually formed between the hemiacetal of the first carbohydrate and the functional group on the second molecule which could be Oxygen-, Nitrogen-Sulphur -, and Carbon -glycosidic bonds.
Examples of Polysaccharides are Cellulose Starch , Glycogen formed by the linkage of many long residue monosaccharides connected through glycosidic bonds.
What are biological pumps and Carbonate pump? In ocean...
Answers
Answer:
The carbonate pump is sometimes referred to as the “hard tissue” component of the biological pump. ... While the biological carbon pump fixes inorganic carbon (CO2) into particulate organic carbon in the form of sugar (C6H12O6), the carbonate pump fixes inorganic bicarbonate and causes a net release of CO2
Explanation:
The Krebs cycle is an aerobic
process meaning it needs what to
take place?
ОАТР
O Cartion dioxide
O Glucose
O Oxygen
Answers
Answer:
Oxygen
Explanation:
Kreb's cycle, also known as the Tricarboxylic acid cycle (TCA), is the second process of aerobic cellular respiration, after glycolysis. In the kreb's cycle, acetyl-CoA from pyruvic acid is oxidized to CO2 with the formation of 2 ATP molecules.
Krebs cycle occurs in the matrix of the mitochondria where chemical energy in form of ATP, NADH and FADH2 are produced. Krebs cycle is termed an AEROBIC process because it requires OXYGEN in order to occur.
Placing wilted lettuce in cold water will make it crisp again. Which statementbest describes what happens to restore the lettuce to its original condition? A Salts in the leaf caused water to leave the cells. B Water left the lettuce cells by diffusion. C Osmosis caused salts to enter the lettuce cells. D Water entered the cells of the lettuce by osmosis.
Answers
Answer:
c
Explanation:
Answer:
C Osmosis caused salts to enter the lettuce cells
Explanation:
In order to assemble the organic compounds that are necessary for life, enzymes must break down food into their building blocks. What would happen if someone was not able to produce enough amylase? Simple sugars would not be obtained from carbohydrates. Amino acids would not be obtained from proteins. Fatty acids would not be obtained from lipids. Nucleotides would not be obtained from nucleic acids
Answers
Answer:
A
Explanation:
Which correctly lists three different geologic features that help scientists determine the relative ages of rocks by their positions? magma, erosion, and intrusions erosion, magma, and cross-cutting relationships intrusions, index fossils, and magma index fossils, intrusions, and cross-cutting relationships
Answers
Answer:
D
Explanation:
index fossils, intrusions, and cross-cutting relationships
Option D
.................
Please help!!! The first menses is called the A. Menarche B.menopause C.climacteric D.emission E.ovulation
Answers
Answer:
menarche
Explanation:
"A research group is looking for a way to use spider silk, valued for its high tensile strength, to make extremely strong ropes, but spiders only produce small amounts of silk. They have isolated the gene and have inserted it into cows to produce the silk protein in their milk where the scientists can collect it in large quantities. What is this process called?"
Answers
Answer:
The correct answer is "Transgenics".
Explanation:
The missing options of this question are:
A. Artificial selection
B. Transgenics
C. Bioreaction
D. Recombination
The correct answer is option B. "Transgenics"
Transgenics is a term used to describe the artificial insertion of one or more DNA sequences to an organism that would normally not have it. In this example, the term transgenics applies to the cows that serve as hosts for the production of the spider silk. The process transgenics is what gives the name to terms such as "transgenic food", "transgenic plants" or "transgenic animals".
a species has homologous chromosomes. what does this say about the species?
Answers
Having homologous chromosomes indicates that the organism is a diploid species.
In a nutrient medium that lacks histidine, a thin layer of agar containing around 10^9 Salmonella typhimurium histidine auxotroph produces around 13 colonies over a two day incubation period at 37 degrees centigrade. How do these colonies arise in the absence of histidine? The experiment is repeated in the presence of 0.4 micrograms of 2-aminoanthracene. The number of colonies the number of colonies produced over 2 days exceeds 10,000. What does this indicate about 2- anthracene? what can you surmise about its carcinogenicity?
Answers
Answer:
We can conclude that colonies were able to grow in the absence of histidine due to reverse mutations that enabled the colony to synthesize histidine for its survival. Regarding 2-aminoanthracene, we can see that it induces mutations in an environment, which can be related to a high potential for carcinogenicity.
Explanation:
Reverse mutations can also be called suppressor mutations and occur when a mutation restores a number of genes that were disabled in an organism, for some reason.
According to the action of 2-aminoanthracene shown in the question above, we can conclude that it is a compound that induces mutations, so it was used in the culture medium with no histidine to stimulate reverse mutations in colonies, so that they would grow in that medium culture and synthesize the histidine itself.
However, we must note that a cancer can be developed through mutations. If 2-aminoanthracene is a mutagenic agent, we can consider it an agent with high carcinogenicity.
Determine what kind of variation is related to the following trait: Pierced Ears.
A. Only Environmental variation
B. Neither
C. Only Genetics
D. Both Genetics and the Environment
Answers
Answer:
D. Both Genetics and the Environment
Explanation:
Getting a pierced ear is both a genetic and environmental trait because, in males, it is not genetically transferred, rather it is a choice to manually pierce the ear maybe at birth, or much later in life. In females, however, pierced ears is a genetic trait because it is gotten naturally when they are born
These environmental factors include where a person stays, the kind of friends they keep, and people they try to imitate. Ear piercing is something that is done manually for males for various reasons.
Classify each picture as Carbohydrates or Lipids
Answers
Answer:
1. Lipids
2. Carbohydrate
3. Lipids
4. Carbohydrate
5. Lipids
6. Lipids
7. Carbohydrate
Explanation:
Lipids and carbohydrates are two of the four major biological molecules (the other two being proteins and nucleic acids). They (lipids and carbohydrates) are both long chains composed of elements: carbon (C), hydrogen (H) and oxygen (O).
Lipids called triglycerides are majorly made up of building block fatty acids (long hydrocarbon chains with carboxylic acid) and glycerol ( an hydrocarbon made up of three hydroxyll groups).
Carbohydrates, on the other hand, are made up of long chains of carbon, hydrogen and oxygen with aldehyde or ketone functional group. They are composed of monosaccharide building blocks (also called simple sugars) with general formula CH20(n).
Based on the structural composition of lipids and carbohydrates, structures 1,3,5 and 6 are lipids while 2, 4 and 7 are carbohydrates.
The microorganisms that inhabit the sludge at the bottom of a lake would live in which microbiota zone
Answers
Answer:
Explanation:
In a lake, oxygenic phototrophs produce new organic material as well as O₂. If primary production rates are very high, the resultant excessive organic matter production can lead to bottom-water O₂ depletion from respiration and the development of anoxic conditions. This in turn stimulates anaerobic metabolisms, including anaerobic respirations and fermentations.
Organic matter that is not consumed in surface layers sinks to the depths and is decomposed by anaerobes.
Sea corals live exclusively in the ocean and are radially symmetrical. They have microscopic stinging barbs that shoot out to immobilize their prey. This allows corals to hunt even while they are stuck to the ocean floor. What animal phylum do corals belong in? chordates mollusks cnidarians annelidsA scientist found a new species in a rain forest. The species was small and green in color. She examined one of its many cells and found that the cell had a nucleus but no cell wall.
To which kingdom does this species most likely belong?
plants, because it is green and small
bacteria, because it is small and has a nucleus
fungi, because it is green and has no cell wall
animals, because it is multicellular with no cell wall
Answers
1. Which group of clinical findings describes the typical presentation of ALL (acute lymphoid leukemia)?
Answers
Answer:
Pain in long bones, infection, fever, bruising
Explanation:
Acute lymphoid leukaemia is a cancerous disorder of the bone marrow that affect the body's lymphocytes or red blood cells.
It occur more in children and develop when there there is errors in the DNA of the bone marrow.
Pain in long bones, infection, fever, bruising are the clinical findings of acute lymphoid leukaemia because this condition affect the white blood cells that is the body defence cells that help to fight against infections. When it is beeen affected, infections set in, there will be bruises, pains, fever e.t.c.
What is the correct order from highest level to lowest level of taxonomic hierarchy?
Answers
Answer:
-_-
Explanation:
The kingdom has the highest rank followed by division, class, order, family, genus, and species. Species has the lowest rank in the hierarchy.
What do you understand by taxonomic hierarchy ?
Different creatures are identified, categorized, and described using taxonomy. With the help of this approach, each species is given a distinctive name that makes species tracking simpler.
The taxonomic hierarchy was introduced by Linnaeus. It is also known as a Linnaean hierarchy. It is used to classify organisms into different categories. It includes the sequence of categories in a decreasing or increasing order from kingdom to species and vice versa.
This hierarchy's taxonomic category or rank refers to each level. Kingdom is always listed first in this system of categorization, then division, class, order, family, genus, and species.
Thus ,the highest level is kingdom and the lowest is species.
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In order to prevent self-digestion of the pancreas, activation of pancreatic proteases occurs in the __________.
Answers
Answer:
duodenum
Explanation:
In mammals, the duodenum represents the initial portion of the small intestine, while the pancreas is a gland that secretes enzymes into the duodenum in order to help with the process of digestion of foods consumed. The pancreas secretion contains distinct enzymes including, among others, trypsinogen, chymotrypsinogen, amylase, and lipase which are capable of breaking down larger macromolecules. The pancreas also secretes insulin and glucagon hormones required to regulate blood sugar levels. Moreover, it is important to note that the duodenum is also involved in the absorption of iron.
The estimated heritability of 48 percent for neuroticism in the population supports the claim that Group of answer choices the population in general has a recessive gene for neuroticism. the incidence of neuroticism is associated with that of another distinct trait. the variability in neuroticism is due partly to genetic variability in the population. those with the neurotic trait share a particular dominant allele.
Answers
Answer:
the variability in neuroticism is due partly to genetic variability in the population.
Explanation:
In population genetics, heritability (h) is defined as the amount of the phenotypic variation attributable to genetic factors rather than environmental factors.
Mathematically, h is calculated by using the following equation: H2 = Vg/Vp, where Vg is the variation in genotype, while Vp is the variation in phenotype.
An H value close to zero (0) indicates a very low heritability (i.e., the phenotype depends on the environmental differences between individuals), while an H close to one (1) indicates very high heritability (i.e., the phenotype is firstly dependent on genetic factors).
In this exercise we have to use the knowledge of genetic variability to be able to explain the topic in question, so we have to:
The variability in neuroticism is due partly to genetic variability in the population.
Knowing that the importance of genetic variability is due to:
In inhabitants of a place genetics, heritability (h) happen outline as the amount of the phenotypic variation deducible to genetic determinant alternatively environmental determinant.
An H advantage nearly zero (0) signify a very low heritability (that is, the phenotype depends in contact the environmental distinctness between thing), while an H nearly one (1) display very high heritability (that is, the phenotype exist firstly helpless on coming from heredity determinant).
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Why do scientists communicate their results?
Answers
Answer:
It is important to share what you have learned with others.
Explanation:
Scientists often find solutions to problems by knowing the results of other scientists' experiments. Communicating your results is often the first step to clearly identifying a problem and beginning to think about possible solutions.
Publishing results of research projects in peer-reviewed journals enables the scientific and medical community to evaluate the findings themselves. It also provides instructions so that other researchers can repeat the experiment or build on it to verify and confirm the results.
Answer:
Publishing results of research projects in peer-reviewed journals enables the scientific and medical community to evaluate the findings themselves. It also provides instructions so that other researchers can repeat the experiment or build on it to verify and confirm the results.
Explanation:
Scientists often communicate their research results in three general ways. One is to publish their results in peer-reviewed journals that can be ready by other scientists. Two is to present their results at national and international conferences where other scientists can listen to presentations.
Hope it helps!
What basic organizational principle is true of the ECM of animal cells compared with plant cell walls
Answers
Explanation:
In order to form tissues, individual cells must bind and communicate with each other. Extracellular material surrounds cells to provide cohesion and structure. This structural component is known as the extracellular matrix (ECM) for animal cells and the cell wall for plant cells. Although they are made up of different components, both the ECM and cell wall have similar structures. Both consist of structural fibers, a hydrated matrix, and adhesive molecules.
why do pk values of ionizable groups differ between free amino acids and amino acid residues in polypeptides
Answers
Answer:
Because of electrostatic interactions.
Explanation:
The pk values associated with ionizable groups are the result of the electrostatic interaction that occurs with the interaction of the ionizable side chain groups with groups of side chains that have charges, or that have neutral charges. This interaction directly influences the pk values of ionizable groups, leaving them different between free amino acids and amino acid residues in polypeptides.
Can a dragonfly fly if it’s wings are weat
Answers
Answer:
no. it cant take off as quickly so they take shelter under leaves and things as it rains.
______ are chemical messengers secreted by glands. Exocrine glands, such as sweat glands, secrete fluids through ducts. _______ glands secrete hormones directly into the bloodstream. The _______ gland plays an important role in puberty and growth. Epinephrine, triggering the "fight or flight" response, is produced by the _______ glands, which sit on top of the kidneys. Most glands that secrete hormones operate using feedback mechanisms. When hormone concentrations are high, the gland will produce ________ of the hormone. Many cells produce chemicals called _______, hormone-like substances that impact inflammation and reproduction. The gland that helps regulate growth, body temperature, and the level of calcium in the blood is called the _______. Describe the function and compare steroidal and nonsteroidal hormones. How does each type of hormone interact with the cell? What other molecules are required for or involved in their function?
ANSWERS:
1. Hormones
2. endocrine
3. pituitary
4. adrenal
5. less
6. prostaglandins
7. thyroid
8. Steroidal hormones enter the cell directly and interact with DNA inside the nucleus. These hormones change gene expression, affecting the RNA that is produced and the proteins that are translated in a cell. Nonsteroid hormones do not enter the cell. Instead, they bind to specific receptors on the outside of the cell membrane. This triggers molecules called secondary messengers, such as cAMP, to begin their work of relaying information in the cell, where other chemicals, messengers, and proteins are involved to create a cellular response.
Answers
Answers:
Hormones are chemical messengers....
Endocrine glands secrete hormones...
The pituitary gland plays...
is produced by the adrenal glands...
the gland will produce fewer amounts of the hormone...
produce chemicals called paracrine factors...
blood is called the thyroid.
Steroid hormones are synthesized from cholesterol, while nonsteroid hormones are synthesized from modified amino acids and small peptides. Non-steroid hormones are not lipid-soluble and therefore they need to bind to a receptor on a cell membrane; while steroid hormones can diffuse through the cell membrane.
Explanation:
Hormones are signaling molecules synthesized by glands. The endocrine glands include the adrenal glands, pineal gland, thyroid gland, parathyroid gland, pituitary gland, ovaries, testes, pancreas and hypothalamus. The pituitary gland is an endocrine gland that secretes hormones capable of stimulating the adrenal glands in order to produce steroid hormones. Hormone levels are often modulated by negative feedback, by which high-hormone levels reduce their own production. Paracrine factors (also known as growth and differentiation factors) are proteins that can diffuse across small distances in order to induce responses in neighboring cells. The thyroid gland secretes hormones involved in regulating metabolism and growth. Moreover, the thyroid gland also secretes calcitonin that regulates calcium levels in the blood.
Hormones are chemical messengers that are secreted by glands.
Endocrine glands secrete hormones directly into the blood stream. The pituitary gland plays an important role in puberty and growth . Epinephrine hormone is a crucial part of the body's fight-or-flight response which is produced by the adrenal glands which are located on top of the kidneys.
When hormone concentrations are high, the gland will produce less amount of the hormone. Many cells produce chemicals called hormone like substances that impact inflammation and reproduction of the organism. Parathyroid gland are the gland that helps regulate growth, body temperature, and the level of calcium in the blood.
Steroid hormones are synthesized from cholesterol and has the ability to diffuse through the cell membrane while on the other hand, non-steroid hormones are synthesized from amino acids and small peptides. Non-steroid hormones are not lipid-soluble and therefore they need to bind to a receptor on a cell membrane.
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Rank each of the following events of the ovarian cycle in chronological order using #1 to identify the earliest event. 61 Rank the options below. 8 points
1. The follicular phase begins
2. The follicle collapses and bleeds and becomes the corpus luteum.
3. FSH stimulates the maturation of follicles
4. A surge in LH stimulates the primary oocyte in the dominant follicle to complete meiosis
5. The secondary oocyte is formed and the dominant follicle ruptures (ovulation).
6. Estradiol increases the dominant follicle's sensitivity to the gonadotropins
7. FSH secretion diminishes and non-dominant follicles degenerate.
8. The corpus luteum secretes progesterone helping to prepare the uterus for a possible fertilization
Answers
Answer:
1. The follicular phase begins
2. FSH stimulates the maturation of follicles
3. Estradiol increases the dominant follicle's sensitivity to the gonadotropins
4. FSH secretion diminishes and non-dominant follicles degenerate.
5. A surge in LH stimulates the primary oocyte in the dominant follicle to complete meiosis
6. The secondary oocyte is formed and the dominant follicle ruptures (ovulation).
7. The follicle collapses and bleeds and becomes the corpus luteum.
8. The corpus luteum secretes progesterone helping to prepare the uterus for a possible fertilization
Explanation:
Ovocites production in all vertebrates is cyclic. It involves hormones interaction and changes in follicular cells and uterine walls. The hypothalamus is in charge of this cycle, and the hormones involved are the estrogens and progesterone, hypophysis hormones FSH and LH, and the hormone that releases gonadotrophins GnRH. In reduced concentrations, estrogens act by negative feedback inhibiting the production of FSH, GnRH, and LH. In high concentrations, by positive feedback, estrogens stimulate the GnRH secretion and enhancing the synthesis of FSH and LH hormones. Under the high concentration of progesterone, the secretion of all these hormones is inhibited.
At the beginning of the menstrual cycle, the hormonal levels are low. After a few days, oocytes and follicles start to maturate under the influence of the gonadotrophic hormones FSH and LH. As the follicle increases in size, it secretes estrogen that stimulates the endometrium´s regeneration to make the fertilized ovule implantation possible. The rapid increase in estrogens level in the middle of the cycle provokes an increase in LH release, which also stimulates the oocyte release (ovulation) that goes to the uterus. Under the stimulation of the LH, the follicle cells increase in size and produce the luteal body. Cells of this last one increase in size and secrete progesterone and estrogen. The high levels of these two hormones inhibit the secretion of GnRH and thus the secretion of FSH and LH.
If there is not fertilized and implanted egg, the luteal body is reabsorbed and the production of the ovarian hormones decreases. Under low hormones concentration, the endometrium loses part of its wall by eliminating as the menstrual fluid. When the ovarian hormones decrease, hypophysial gonadotrophic hormones increase again followed by the development of a new follicle and the increase in estrogen levels when the cycle starts all over again.
mitochondria?
Without mitochondria, does this organism still
carry out all the basic functions of life?
Answers
Answer
No
Explanation:
You can't survive without mitochondria, the organelles that power most human cells. Mitochondria are the descendants of bacteria that settled down inside primordial eukaryotic cells, eventually becoming the power plants for their new hosts.
Which of the following is responsible for sensing excessive stretch to protect the muscle?
A. Golgi tendon organ
B. Muscle spindle
C. Muscle fiber
D. Sarcomere
Answers
Answer: Muscle Spindle
Explanation: The muscle spindle is actually a specialized muscle fiber, which detects excessive stretch within the muscle. ISSA CPT Page 357
The thing that is responsible for sensing excessive stretch to protect the muscle is the golgi tendon organ, which is present in Option A as it is a sensory receptor located in the tendons of muscle fibers.
What is the golgi tendon organ?The golgi tendon organ is a type of proprioceptor, which is a sensory receptor that provides information about body position and movement, is located in the tendons of the skeletal muscles and is made up of sensory nerve fibers wrapped around collagen fibers within the tendon. When a muscle contracts, it generates tension in the tendon, which activates the sensory nerve fibers in the Golgi tendon organ, and the nerve fibers then send signals to the spinal cord for further work.
Hence, the thing that is responsible for sensing excessive stretch to protect the muscle is the golgi tendon organ, which is present in Option A.
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Can a dragon fly fly if it’s wings are soaked
Answers
They aren’t real though, but using basic knowledge of what is actually real, we can cross reference information =)
Hope this helps ♥︎☀︎☁︎
Answer:
yeeeeeeeeee
Explanation:
Which element us considered the most versatile element in living organisms and why?
Answers
Answer:
Carbon, because it provides strength to the important protein, keratin. So, Carbon is considered the most versatile element in living organisms.
Explanation:
The way people understand and make sense of others and themselves is known as
Answers
Answer:
Social Cognition. is the answer