Answer:
The process is high-energy intensive (the alternative answer)
Explanation:
Which statement represents an abiotic environmental factor in an ecosystem?
•The lion hunting the gazelle.
•The flower growing on the vine.
•The fish swimming in the lake.
•The air temperature in the mountains.
Answer:
An example of an abiotic factor within an ecosystem is the air temperatures in the mountains.
Explanation:
In an ecosystem, abiotic factors refer to all those non-living elements, which depend on chemical and physical elements. Water, soil, wind, temperature, climate, minerals and soil pH are abiotic elements.
In comparison to the other statements, the one that corresponds to an environmental abiotic factor is the air temperature in the mountains, describing even two factors, air and temperature.
The other alternatives, lion hunting the gazelle, flower growing on the vine or fish swimming in the lake represent biotic or living elements of an ecosystem.
7. The periodic table has changed over time as new elements have been added to it. Which
is the most likely reason scientists update the periodic table?
A. Scientists rename old elements.
B. Scientists discover new elements.
C. Stars produce new elements that travel to Earth.
D. Past mistakes are corrected in identifying elements.
Answer:
it will be the answer B. scientists discover new elenents.
The most likely reason that scientists update the periodic table is that Scientists discover new elements.
What is periodic table?All identified chemical elements are arranged in rows (referred to as periods) and columns (referred to as groups) in the periodic table of chemical elements, also known as the periodic table, in ascending order of atomic number.
The periodic table is used by scientists to quickly refer to details about an element, such as its atomic mass and chemical symbol. Scientists can identify trends in element properties like electronegativity, ionization energy, and atomic radius thanks to the periodic table's arrangement.
Many scientists worked on the issue of grouping the elements, but Dmitri Mendeleev is generally recognized as the periodic table's creator. In 1869, he produced the first version of the periodic table.
Therefore, The most likely reason that scientists update the periodic table is that Scientists discover new elements.
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Why do calculated recombination frequencies between pairs of loci that are located far apart underestimate the true genetic distances between loci? A. Recombination frequencies cannot exceed 50% and asymptotically approach 50% as the distance between genes increases because only one crossover can occur per chromosome. B. As the distance between loci increases, some multiple crossovers go undetected such that the relationship between recombination frequency and map distance ceases to be linear. C.Loci that are far apart on a chromosome often recombine to produce combinations of alleles that result in a lethal phenotype and such recombinants are not recovered or identified. D. Loci that are far apart on a chromosome are often susceptible to a form of chromatic interference that results in reduced crossing over, and this interference does not occur for loci that are closer together. E. If two crossovers occur between two loci, then only nonrecombinant gametes are produced; therefore, recombination frequencies actually begin to decrease for more distant pairs of genes.
Answer:
B. As the distance between loci increases, some multiple crossovers go undetected such that the relationship between recombination frequency and map distance ceases to be linear.
Explanation:
When calculating recombination frequencies, and hence, map distances, we might notice that these distances are not completely additive. They might vary. For example, let us say that we have three genes, A, B, and C, in that order. We calculated that the distance between A and B equals 5.9 MU and that B and C are 19.5 MU apart. According to this, we might say that the total distance between A and C is 25.4 MU (5.9 + 19.5). However, after a two-point calculation between A and C, the value equals 23.7 MU.
The recombination frequency between these two genes located in the extremes and far apart underestimate the actual genetic distances between them because there might occur other crossing-overs that were not detected. This is when calculating the distance between A and C, we probably will not detect the occurrence of a double recombinant between them, and hence, we might sub-estimate the real distance.
The relationship between the actual map distance (number of crossing overs) and the recombination frequency between two loci, is not lineal. The farther apart are the two genes, the worse is the distance estimation.
Year Anomaly Value Actual Temperature
1880
-0.08
1900
0.03
1920
-0.39
13.51
1940
1960
0.23
1980
2000
0.32
14.22
Answer:
.32
Explanation:
probably
Descibe how the muscle contracts and recharges starting with the release of Ca+ and ending with the cycle of recharging
Answer:
Open channels allow an influx of sodium ions into the cytoplasm of the muscle fiber. The sodium influx also sends a message within the muscle fiber to trigger the release of stored calcium ions. The calcium ions diffuse into the muscle fiber.
Explanation:
What do these hints point to?
5 POINTS
SQUASH
5 POINTS
80 POINTS
SEEDS
80 POINTS
Answer: Pumpkin
Explanation:
Cucumbers have a lot of seeds but are not squash.
Apples are neither squash nor do they have that many seeds.
Pumpkins are squash and have a lot of seeds so this must be the correct answer.
Melons have a lot of seeds but are not considered squash even though they are related.
Answer:
Pumpkin
Explanation:
In the classic Meselson and Stahl experiment, E. coli are first grown in 15N-enriched media (0th generation) and, subsequently, switched to 14N-enriched media. A DNA sample isolated during the first generation of E. coli grown in 14N media is subjected to a centrifugation step in a dense CsCl gradient.
Assuming that replication occurs in a semiconservative fashion, the DNA sample will:____________
a) run as two bands (of equal intensity), one at the same position as a uniformly 15N-labeled DNA, and one at the same position as a uniformly 14N-labeled DNA.
b) run as one band, at the same position as a uniformly 15N-labeled DNA.
c) run as one band, at the same position as a uniformly 14N-labeled DNA.
d) run as one band, at a position expected for a DNA containing a 14N:15N ratio equal to 7.
e) run as one band, at a position expected for a DNA containing a 14N:15N ratio equal to 1.
Answer:
The correct answer is - option e.)
Explanation:
The experiment that was performed by Meselson and Stahl was created to prove that DNA replication is a semiconservative process.
When Bacteria grow on 15N media they incorporate the isotype of nitrogen and after few generations, the culture moved to 14N media where it incorporates as they replicate in semi-conservative mode and one DNA strand comes from the Parent DNA.
The right option for question one is Option (e) Run as one band, at a position expected for DNA containing a 14N:15N ratio equal to 1.
From your laboratory data, you were able to estimate the approximate size of each of the DNA fragments that you separated on your gel. This was done in terms of the number of base pairs. Explain how you made this determination.
Answer: The DNA fragments are separated in an electrophoresis gel and compared with a weight marker, a reference standard containing DNA fragments of known lengths
Explanation:
Gel electrophoresis is a lab technique used to separate DNA according to their size. However, the DNA molecules in the cells are too large to separate through a normal electrophoresis gel, but they can be analyzed if they have previously been fragmented, for example, using restriction enzymes.
Agarose gels (concentration between 0.3% and 2%) are usually used to separate DNA, because they are more porous than polyacrylamide gels.
First, the gel is placed in a chamber with a buffer that allows the conduction of an electric current. One end of that chamber is connected to a negative electrode, while the other end is connected to a positive electrode. So, DNA samples are loaded into a slot next to the negative electrode and an electric current is applied that makes them move through the gel. And, one well is used for a reference standard which has DNA fragments of known lengths. Commercial DNA markers cover different size ranges, so it is important to choose one with good "coverage" in the size range in which we expect to find our fragments. Since the DNA fragments have a negative charge, they will move towards the positive electrode. Thereby, small fragments move through the gel faster than large ones.
At the end, longer fragments will stay close to the negative end as being larger, they move more slowly. And shorter fragments will be closer to the positive end of the gel, because they will move faster.
The next step is to stain the gel with a pigment that binds to the DNA, and the fragments can be seen as bands under UV light allowing us to see the DNA present at different locations along the gel. It should be noted that a single DNA fragment would not be visible. So actually. each band contains a great number of DNA fragments of the same size at the same position.
By comparing a band in a sample with the molecular weight marker, we can determine its approximate size. However, in order to be more precise, we can draw a calibration curve. You can measure the advanced of the electrophoresis front versus the logarithm of the size (lbase pairs) for each band and calculate a regression line. So the advance distances of the samples are interpolated, which will allow you to to calculate the of a specific fragment.
Why would a distance runner consume carbohydrate instead of protein before a race
Answer: Eating carbohydrates prior to a race improves a runner's endurance , speed, energy and alertness, according to Asker Jeukendrup, a professor of exercise metabolism and academic director of the Human Performance Laboratory at the University of Birmingham in the United Kingdom.
The purpose of consuming carbohydrates is to maximize glycogen stores in the muscles during a run, which can improve endurance and prevent fatigue.
What are Carbohydrates?Carbohydrates are also known as fibers, starches and sugars which are essential food nutrients which are converted into glucose to give energy to the body to function. These complex carbs in fruits, vegetables and whole grain products are less likely to raise blood sugar than simple carbs (sugars) where low-carb diets like keto can be high in fat.
This is the macronutrient found in certain foods and drinks. The carbohydrates is consumed during the race time to maximize glycogen stores in the muscles during a run, which can improve endurance and prevent fatigue.
These are formed by green plants from carbon dioxide and water during the process of photosynthesis which serve as energy sources and essential structural components in organisms.
Thus, the purpose of consuming carbohydrates is to maximize glycogen stores in the muscles during a run, which can improve endurance and prevent fatigue.
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How does carbon move from plants to animals?
Group of answer choices
Answer: through the process of photosynthesis
Explanation:
carbon dioxide is pulled from the air to produce food made from carbon for plant growth. Carbon moves from plants to animals. Through food chains, the carbon that is in plants moves to the animals that eat them. Animals that eat other animals get the carbon from their food too.
Photosynthesis is answer
One of the main characteristics of the population is its?
Answer:
population size, population density, when scientists population spacing and age structure
Explanation:
because because four characteristics is defined a population and i kind of just know.
The normal shape of an enzyme is as shown in structure A. If the enzyme’s shape changes to that shown in structure B, what are two consequences of this change?
less binding of substrate
more binding of substrate
won’t follow the lock-and-key pattern of enzyme binding
will follow the lock-and-key pattern of enzyme binding
a substrate reaction independent of the enzyme structure
Answer: I hope this helps! Can I have Brainliest plz :)
Explanation:
When the conformations change from A to B, there is less binding of the substrate. So, the correct option is (A).
What is an Enzyme?Enzymes are types of proteins which act as biological catalysts by speeding up chemical reactions. The molecules on which enzymes can act on are called substrates, and enzymes which convert substrates into different molecules known as products.
It speeds up the rate of a specific chemical reaction in the cell. It is not destroyed during the reaction and is used again and again. Enzymes follow the lock and key principle to bind to the substrate i.e. the specific lock binds to the specific key, similarly the specific enzyme binds to the its substrate.
Enzymes perform the important function of lowering the activation energy of a reaction which is the amount of energy required to initiate the reaction. Enzymes work by binding to reactant molecules and holding them in such a way that the process of breaking and forming chemical bonds occurs more easily.
Thus, when the conformations change from A to B, there is less binding of the substrate. So, the correct option is (A).
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Which organism receives energy from the rabbit
Answer:
Eagle.
Explanation:
Because the arrow is going towards the eagle meaning the eagle eats the rabbit and gets the energy.
a disease whose primary symptom is blood in the urine
Answer:
Urinary tract infections.
For some people, especially older adults, the only sign of illness might be microscopic blood in the urine. Kidney infections (pyelonephritis). These can occur when bacteria enter your kidneys from your bloodstream or move from your ureters to your kidney(s)
what is the differences in the abiotic
factors of the open ocean photic
zone compared to the open
ocean aphotic zone
Answer:
The difference is about the primary production and the oxygen concentration and so the pH of the water. ... In the aphotic zone, there is no light, so vegetal organism can't grow and realize the photosynthesis, the CO2 is accumulated, there is less Oxygen and the pH is lower than in the photic zone.
Explanation:
its on google
what is heat and what is its si unit
Answer:
joule is its si unit
Explanation:
As a form of energy, heat has the unit joule (J) in the International System of Units (SI). However, in many applied fields in engineering the British thermal unit (BTU) and the calorie are often used. The standard unit for the rate of heat transferred is the watt (W), defined as one joule per second.
Which term means "serious
inflammation or infection of the
lungs"?
A pharyngitis
B. pneumonia
C. sinusitis
D. pneumothorax
Answer:
b or a
Explanation:
Answer: Your answer should be pneumonia
Explanation:
When Bob reaches point "C" on the roller coaster he is moving more slowly. What type of energy does the car have at point C?
Kinetic energy only
Potential energy only
Both potential and kinetic energy.
Neither potential nor kinetic energy.
Answer:
I think both
Explanation:
because both speed and height went down but not sure tho
Answer:
Both potential and kinetic energy
Explanation:
When the roller coaster is slowing down, it is storing some of the energy; Because it is still moving, it's using kinetic energy
If the sun were to burn out, what would be the first biological process to
stop?
* Cellular respiration
* photosynthesis
*kreb’s cycle
* Calvin cycle
Chose one of the *
Answer:
Photosynthesis
Explanation:
Photosynthesis uses sunlight directly. Light energy from the sun is used to power the reactions of photosynthesis. Carbon dioxide and water are converted into glucose and oxygen.
This is essential for providing plants with food. They break down this glucose to release cellular energy to power all cellular processes.
The Krebs cycle is a stage of cellular respiration
The Calvin cycle is part of the dark reactions of photosynthesis that do not require sunlight.
