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11 days ago

When double-stranded DNA is heated at neutral pH, which change does not occur?

Chemistry

1 answer:

KiRa [2.7K]11 days ago

7 0

Answer:

Option B) The N-glycosidic bond that forms between the base and the pentose breaks

Explanation:

When the forces that hold the two strands of DNA together are compromised, they separate. This process is identified as denaturation.

The critical forces maintaining the dual strands of DNA are the hydrogen bonds (physical forces) linking base pairs (Adenine with Thymine, and Guanine with Cytosine).

Denaturation is a phenomenon that can be induced by various factors: alterations in pH, introduction of salt, heating, and others.

When a DNA solution undergoes heating, the denaturation process can be monitored through UV absorption (typically at a wavelength of 260 nm): UV light absorption is minimal when the DNA (double-stranded) is in its native state, as the nitrogenous bases are stacked like coins, resulting in less light absorption.

As the DNA double helix unwinds during denaturation, these bases become exposed, leading to an increase in UV absorption.

Additionally, viscosity is another method to observe DNA denaturation: in a double-stranded DNA solution, viscosity is high due to the stiffness of the double chain; however, once the strands separate, the viscosity decreases (as time progresses with heating).

Ultimately, during the heating process, only physical forces are disrupted (i.e., hydrogen bonds), while chemical bonds (such as covalent bonds) remain intact, which would require extreme conditions for disruption.

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Mendeleev placed thallium (Tl) in the same group as lithium (Li), sodium (Na), potassium (K), rubidium (Rb), and cesium (Cs). Ho

castortr0y [2731]

Answer:

Mendeleev categorized thallium (Tl) alongside lithium (Li), sodium (Na), potassium (K), rubidium (Rb), and cesium (Cs)

Explanation:

Characteristics of Thallium:

Thallium is a dense metal represented by the symbol Tl. It belongs to the 13th group and 6th period of the modern periodic table. The element is quite malleable and has a +3 oxidation state. It is rarely found in its elemental form in nature.

Mendeleev associated thallium with lithium and sodium because he observed that these elements, including Li and Na, form compounds with a single atom of chlorine (Cl), similar to the formation of TlCl by thallium (Tl). Thus, he classified Tl along with these similar elements.

Distinction of Thallium from the other five elements:

Unlike Li, Na, K, Rb, and Cs that exhibit a +1 oxidation state, Tl has a +3 oxidation state.

4 0

1 month ago

A student added 5.350 g of ammonium chloride to 100.00 cm3 of water. the initial temperature of the water was 25.55℃ but it decr

Alekssandra [2711]

The result is: 16.56 kJ.
1) The mass of NH₄Cl is 5.35g.
For water, m(H₂O) = density(H₂O) · volume(H₂O) = 1g/cm³ · 100cm³ = 100g.
The temperature change, ΔT, is 25.55°C - 21.79°C = 3.76°C.
Calculating heat, Q = m(solution) · C(specific heat of water) · ΔT.
This gives Q = 105.35g · 4.18 J/g·°C · 3.76°C = 1655.76J.
2) Here, m(NH₄Cl) = 1mol · 53.5g/mol = 53.5g.
For water again, m(H₂O) = density(H₂O) · volume(H₂O) = 1g/cm³ · 1000cm³ = 1000g.
Thus, m(solution) totals 1053.5g, which is ten times the mass of the first solution.
Now, Q = 10 · 1655.76J = 16557.6J = 16.56 kJ.

5 0

1 month ago

Read 2 more answers

A scientist has a container with a substance inside. At first, the molecules in the substance move away from each other. Later,

Tems11 [2390]

The correct selection is B) Initially, the substance existed as a gas, and subsequently, it transformed into a liquid. Gas particles move apart and freely, while in contrast, liquid particles are in close proximity and move past one another. I hope this clarifies the matter!

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18 days ago

Sam prepares a solution of sodium chloride with a concentration of 8 g/dm³. If he only used 2g of sodium chloride, what volume o

lions [2649]

The amount of water used to dissolve the solute is 250 cubic centimeters.

Explanation:

Concentration = mass of solute in grams / volume in dm³

Concentration of a solution refers to the ratio of the mass of solute in grams to the volume of water in dm³.

mass of solute = 2 g.

The volume of water = 2 / 8 = 0.25 dm³. (which is also 250 cubic centimeters.

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4 0

1 month ago

If 0.40 mol of H2 and 0.15 mol of O2 were to react as completely as possible to produce H2O what mass of reactant would remain?

alisha [2704]

Response: The remaining mass of the reactant $H_2$ is 0.20 grams.

Solution:

Given:

Moles of $H_2$ = 0.40 mol

Moles of $O_2$ = 0.15 mol

Molar mass of $H_2$ = 2 g/mole

Initially, we need to identify the limiting and excess reactants.

The balanced chemical equation is:

$2H_2+O_2\rightarrow 2H_2O$

From the balanced equation, we deduce that

1 mole of $O_2$ reacts with 2 moles of $H_2$ .

Thus, 0.15 moles of $O_2$ will react with $0.15\times 2=0.30$ moles of $H_2$ .

This shows that $H_2$ is the excess reagent since its provided amount exceeds what is necessary, whereas $O_2$ is the limiting reagent which restricts product formation.

The remaining moles of reactant $H_2$ = 0.40 - 0.30 = 0.10 mole

Next, let’s calculate the mass of the remaining reactant $H_2$ .

$\text{ Mass of }H_2=\text{ Moles of }H_2\times \text{ Molar mass of }H_2$

$\text{ Mass of }H_2=(0.10moles)\times (2g/mole)=0.20g$

Thus, the mass of the remaining reactant $H_2$ is 0.20 grams.

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1 month ago