The core of the Earth is the deepest layer of the planet, which is divided into inner and outer core, these being very hot and dense composed of ferromagnetic minerals responsible for generating the electromagnetic field that surrounds the planet.
The core is mainly composed of iron, with 5-10% nickel and other minor elements such as sulfur and oxygen and other ferromagnetic minerals, these materials exist both in the inner and outer core, only in liquid form on the outer core and solid in its inner core.
The outer core, that is, its most superficial layer, consists of iron, nickel and other molten metals, it is a layer subjected to very violent convection processes, whose displacement precisely generates the Earth's magnetosphere, acting as a gigantic dynamo.The inner core, its deepest layer, is composed of 70% iron and 30% nickel in a solid alloy, acting as a stabilizer of the magnetic field created by the liquid outer core.Therefore, we can conclude that the liquid outer core generates the geomagnetic field and the solid inner core stabilizes it, both layers are composed of iron being these very hot and dense.
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Natural selection is a process by which the characteristics of a(n) __________ will change over time.
Where do scientists obtain primers to be used in pcr and in this technique answer?
Existing strand of nucleotides we call primer.Synthesize DNA primers through specific sequences that bind to other sequences of a single-thread DNA molecule.
Where do primers come from in PCR?A primer must be synthesized by an enzyme called primase, which is a Kind of RNA polymerase, before DNA replication can occur.
The making of a primer is require because the enzymes that synthesize DNA, which are called DNA polymerases, only linked to new DNA nucleotides to an strand of nucleotides.
Thus, DNA primers through specific sequences that bind to other sequences of a single-thread DNA molecule.
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Final answer:
Primers for PCR are chemically synthesized by commercial vendors based on specific sequences provided by geneticists. Taq polymerase, used in PCR for its heat stability, is derived from Thermus aquaticus. RT-PCR involves converting RNA to cDNA prior to PCR amplification.
Explanation:
Scientists obtain primers to be used in Polymerase Chain Reaction (PCR) through chemical synthesis from commercial vendors. Primers are short, synthetic, single-stranded DNA molecules that are complementary to the regions flanking the target DNA sequence that needs to be amplified. To design these primers, the geneticist must know sequences that are adjacent to the target DNA region. Once the forward and reverse primers are designed, they are synthesized by the vendor to match the specific sequence required for the PCR process.
The commonly used Taq polymerase in PCR is a heat-stable DNA polymerase derived from the thermophilic bacterium Thermus aquaticus, which can withstand the high temperatures during the PCR steps. The enzyme's stability is essential since the PCR involves repeated heating and cooling cycles to denature DNA, anneal primers, and extend the DNA strands.
In the case of Reverse Transcriptase PCR (RT-PCR), cDNA is synthesized from an RNA template before the PCR begins, aiming to amplify RNA sequences by converting them into DNA.
where do scientists believe the missing carbon is going
Mental processes occurring on autopilot, oblivious to the present, are known as
For water to travel across the cell membrane at a substantial rate the water molecules travel through protein channels known as aquaporins is what diffusion
Draw a stress strain curve for a ductile material indicating yield stress, uts, strain to failure.
Which of the following are tools used in frog dissection
The correct answer is: Scalpel, scissors, tweezers, and a dissection tray are commonly used tools in frog dissection.
Frog dissection is a common laboratory exercise in biology education, where students learn about the anatomy and physiology of amphibians. The following tools are typically used during a frog dissection:
1. Scalpel: A small, sharp blade used for making precise incisions in the frog's skin and underlying tissues.
2. Scissors: Dissection scissors are used to cut through muscles, tissues, and other structures that are too tough for the scalpel.
3. Tweezers: Also known as forceps, tweezers are used to hold and manipulate organs and tissues during dissection, allowing for a closer examination.
4. Dissection tray: A shallow tray that provides a clean, flat surface for the dissection. It often has raised edges to prevent fluids from spilling and grooves or pins to secure the specimen in place.
5. Probe: A blunt tool used to explore and move around organs and other structures without causing damage.
6. Dissection pins: These are used to secure the frog to the dissection tray.
7. Gloves: To protect the hands from formaldehyde (a preservative used in specimen storage) and other biological materials.
8. Safety goggles: To protect the eyes from any splashes or debris during dissection.
9. Dissection manual or guide: To provide students with step-by-step instructions and diagrams to follow during the dissection process.
10. Magnifying glass or dissection microscope: For a closer look at smaller or more intricate structures within the frog's body.
These tools are essential for a successful dissection, allowing students to carefully explore the internal anatomy of the frog and learn about its various organ systems."
True-breeding red petunias are crossed to pure-breeding blue petunias, and all the f1 progeny have purple flowers. if the f1 are allowed to self-fertilize and produce the f2, what is the expected phenotypic distribution of the f2 progeny?
Final answer:
The expected phenotypic distribution of the F2 progeny when true-breeding red petunias are crossed with pure-breeding blue petunias, with all F1 having purple flowers, would be 75% purple flowers and 25% a mix of red and blue, under the assumption of incomplete dominance.
Explanation:
When true-breeding red petunias are crossed with pure-breeding blue petunias, and the resulting F1 progeny have purple flowers, this suggests that red and blue flower colors are co-dominant. Upon self-fertilization of the F1 progeny, we would expect to see a phenotypic distribution in the F2 generation that shows the effects of this co-dominance.
If red (R) and blue (B) are co-dominant alleles, the F1 generation will all be heterozygous (Rb), resulting in purple flowers. When these F1 plants self-fertilize, the F2 generation will have the following genotypes according to a Punnett square: RR (red), Rb (purple), bR (purple), and bb (blue). The phenotypic ratio would therefore be 1 red: 2 purple: 1 blue, or 25% red, 50% purple, and 25% blue.
However, it must be noted that if instead, one color is dominant over the other, and purple is the result of incomplete dominance, the phenotypic ratio of the F2 generation would show a different pattern. In that case, the ratio at the F2 generation would be commonly expected to be 1:2:1 according to Mendelian genetics, corresponding to 25% one parent color, 50% the blended color (purple), and 25% the other parent color.
Based on the historical context from Mendel's experiments with peas, where a similar pattern of inheritance was observed with purple and white flowers, the question suggests that the expected phenotypic distribution for the F2 generation would be 75% purple flowers and 25% a mix of red and blue flowers, assuming that the purple color is a result of incomplete dominance.
Name three major types of water pollutants, and provide an example of each. explain which classes of pollutants you think are most important in your local area.
What type of bond is being cleaved during the conversion of atp to adp?
If a person has a deviated septum, what 2 bones could possibly be deformed?
Wind blown dust __________. can reach any part of the ocean may contribute to the formation of red tides is found as deep-sea red and brown mud far from land originates on land surfaces all of the above are correct.
When a ball rolls down the hill, what energy is conserved?
A. Potential energy to chemical energy.
B. Potential energy to kinetic energy.
C. Chemical energy to kinetic energy.
D. Kinetic energy to potential energy.
What is a gametophyte?
A. A plant that produces gametes.
B. An animal that produces gametes.
C. A plant that produces spores.
D. An animal that produces spores.
Hot spot activity is unrelated tot he formation of iceland which sits atop a sea
Enter your answer in the provided box. what is the value of ni for an electron that emits a photon of wavelength 95.04 nm when it returns to the ground state in the h atom?
You can determine initial value of 'n' for a photon of a given wavelength during electron transition, using Rydberg formula, with the final state being the ground state of the hydrogen atom where n1 = 1.
Explanation:To calculate the value of 'n' for an electron that emits a photon of wavelength 95.04 nm when it returns to the ground state in the hydrogen atom, we need to use the Rydberg formula that relates the wavelength of light emitted by an electron transitioning between energy levels in a hydrogen atom:
1/λ = R * (1/n1² - 1/n2²)
Where, R = Rydberg constant = 1.097 x 107 m⁻¹, n1 and n2 are the principal quantum numbers of the initial and final energy states of the electron(m is the ground state), and λ is the wavelength of the emitted light.
Since the electron goes back to the ground state, n1 = 1, and we know the wavelength λ = 95.04 nm. The only unknown here is n2, which we can determine by rearranging and solving the equation.
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The membrane that covers the outer surface of the eye and lines the eyelids is the ________.
The answer is conjunctiva. It is a mucus membrane that is responsible of covering the eye. It is comprise of stratified squamous epithelium and even stratified columnar epithelium that makes the stretchable when pulled and back to its original shape.
___________ may be the cause of impulsive aggression, which can be treated with _________.
The distribution of melanosomes in cells is tightly regulated in animals that rapidly change color. dark-colored cells have melanosomes scattered throughout the cytoplasm while light-colored cells have them aggregated near the nucleus. how could cells use microtubules and motor proteins to change the distribution of melanosomes?
Microtubules originate on the centre of the cell taking the positive end to the periphery of the cell, while the negative end remains turned to the centre of the cell. The melanosomes move along these microtubules using motor proteins desiganted kinesins and dyneins. The kinesins are responsible for moving the melanosomes to the positive end of the microtubule (periphery of the cell) generating dark-colored cells, whereas dyneins move the melanosomes to the negative end of the microtubule (centre of the cell) generating light-colored cells.
Cells change the distribution of melanosomes using microtubules and motor proteins like dynein and kinesin that act as transportation systems within the cell.
Cells in animals that can rapidly change color use microtubules and motor proteins to change the distribution of melanosomes, which carry pigment. These components function similarly to conveyer belts, transporting various cellular cargo, including pigment-containing vesicles known as melanosomes. The light or dark appearance of the cells is a result of the pattern of melanosome distribution, which is controlled by motor proteins such as dynein and kinesin that move along microtubule tracks. Dynein generally moves cargo towards the center of the cell (retrograde transport), while kinesin moves it towards the periphery (anterograde transport).
Describe the two methods suggested for projecting a nonstatistical sample result. how does an auditor determine which method should be used
Non-Statistical Sampling is the method of evaluation the competence of the evidence gathered from the auditor. Selected-sample size is referred to as non-statistical sampling. There are two acceptable methods used for projecting the amount of misstatements. They are ratio projection and difference projection.
Ratio projection is used in the non-statistical sampling and classical variable statistical sampling. It projects the misstatement amount by dividing the amount of misstatement and percentage of the dollars of the sample population.
Difference projection is defined as the average misstatements of each and every item in the sample to the overall population. This projection is executed when the misstatement is stable for the entire item, though its dollar size varies.
Results arrived from these two projections are identical, when the same proportion of items in the populations are incorporated in the sample. But, when different proportions are arrived at, then the choice between the two is based on the auditor’s judgment.
What type of rock would you form in this environment, showing a dried up lake bed?
Marble is a nonfoliated rock that forms when heat and pressure change limestone. Marble _____. is formed by evenly distributed pressure is a clastic sedimentary rock is an extrusive igneous rock has a banded, or layered, look
The correct answer is is formed by evenly distributed pressure.
A 10-month-old infant has begun to take his first steps and his mother has brought him for assessment because of swelling in his ankles and knees. the mother also states that he was eager to walk but has now regressed and cries when she tries to encourage it. the clinician should:
A gene cannot react chemically and form a trait without the proper _____. molecule
enzyme
substrate
chromosome
A gene cannot react chemically to form a trait f the proper enzymes are not present. The formation of a trait from the gene is dependent on the expression of the gene. The gene expression is a process which involves the help of the various enzymes. The absence of any of these essential enzymes will make it impossible for the gene to express the trait for which it is coded.
Hence, the answer is 'enzymes'.
Answer:
A gene cannot react chemically and form a trait without the proper _____.
enzyme
Which two factors of a molecule determine whether or not it can cross the membrane? A. Color and weight B. Shape and texture C. Mass and speed D. Polarity and size
Answer:
correct answer polarity and size
Explanation:
During which phase of photosynthesis is atp and nadph synthesized? a. carbon fixation reactions b. glycolysis c. light-dependent phase d. citric acid cycle e. light-independent phase
Final answer:
ATP and NADPH are synthesized during the light-dependent phase of photosynthesis.
Explanation:
The synthesis of ATP and NADPH occurs during the light-dependent phase of photosynthesis. In this phase, light energy is captured by pigments in the thylakoid membrane of the chloroplasts, and used to convert ADP and inorganic phosphate (Pi) into ATP through a process called photophosphorylation. NADPH is also produced by transferring electrons from water molecules, which are split in a process called photolysis, to NADP+.
A factor that may indicate “heritage inconsistency” is:
after school, Kai feels hungry and tired. He finds some sugar cookies in the cabinet and finishes the whole package. Which statement best describes the role of glucagon and insulin in this scenario?
Pogil what sections of the embedded protein chain are most likely to contain amino acids with hydrophilic r-groups
Amino acids with hydrophilic R-groups are most likely to be located on the surface of proteins and in the exposed regions of membrane-embedded protein chains. This arrangement allows these hydrophilic side chains to interact with the surrounding water-based environments, thus maintaining the structural stability of the proteins.
Explanation:In proteins, the sections that are most likely to contain amino acids with hydrophilic R-groups are at the surface of the proteins. This is due to the polar nature of these hydrophilic R groups. Consider the basic structure of an alpha helix and a ß-pleated sheet. In the alpha helix, there are 3.6 amino acid residues per helical turn, and the R-groups protrude outwards. The same applies to ß-pleated sheets, where 'pleats' formed by hydrogen bonding cause the R-groups to extend above and below the folds. The crucial part is, to maintain the stability of a protein, in the globular formation, the hydrophobic or nonpolar amino acids are usually located in the interior while the hydrophilic or polar amino acids are on the exterior. This arrangement permits the hydrophilic R-groups to interact with the surrounding aqueous environment.
For example, amino acids like serine, threonine, and cysteine, which are polar and have hydrophilic side chains, are frequently found on the protein's outer surface. Additionally, basic amino acids like lysine and arginine, with their positively charged side chains, also often occupy this surface position.
In membrane proteins, hydrophilic amino acids are often found in the regions of the amino acid chain that are exposed to the aqueous environment, either outside of the cell or inside the cytoplasm.
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In a small, isolated population of piranhas, one individual is born with a synonymous mutation in a gene that codes for hemoglobin. after five generations, 5% of the piranhas carry this mutation. what is a plausible explanation for this evolution?