The combining of the nuclei of atoms is known as nuclear _____.

A.) fission
B.) fusion
C.) bombardment
D.) fallout

Answer: The amount of power used by Jackie will be more the second time.

Explanation: Power can be written as:

[tex]Power=\frac{Work}{Time}[/tex]

As the power and time follow inverse relationship, the amount of power used by Jackie will be less in first case because the time taken is more.

In the second case, the time taken is less than the first case, so the power used will be more.

The quantum numbers (4, 2, 1, +½) and (4, 1, 1, +½) represent two different electrons in an atom.

The first quantum number, n, represents the principal energy level, which is 4 for both electrons.

The second quantum number, l, refers to the type of subshell, where l = 2 corresponds to the d subshell and l = 1 corresponds to the p subshell.

The third quantum number, m₁, specifies the specific orbital within the subshell. For the electron (4, 2, 1, +½), m₁ = 1, indicating a specific orbital within the d subshell. For the electron (4, 1, 1, +½), m₁ = 1, indicating a specific orbital within the p subshell.

The fourth quantum number, m², represents the spin of the electron. In both cases, it is +½, indicating a spin up orientation for both electrons.

The quantum numbers (4, 2, 1, +½) and (4, 1, 1, +½) represent two different electrons in an atom. The first quantum number, n, represents the principal energy level, which is 4 for both electrons. The second quantum number, l, refers to the type of subshell, where l = 2 corresponds to the d subshell and l = 1 corresponds to the p subshell.

The third quantum number, m₁, specifies the specific orbital within the subshell. For the electron (4, 2, 1, +½), m₁ = 1, indicating a specific orbital within the d subshell. For the electron (4, 1, 1, +½), m₁ = 1, indicating a specific orbital within the p subshell.

The fourth quantum number, m², represents the spin of the electron. In both cases, it is +½, indicating a spin up orientation for both electrons.

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Answer: C. the attraction between the nucleus and the valence electrons increases.

Explanation: Electronegativity is the tendency of the element to attract the shared pair of electrons towards itself.

Electronegativity of the elements increase across a period as the electrons get added to the same shell and the nuclear charge increases, the valence electrons become near to nucleus and thus the tendency of the elements to attract the shared pair of electrons itself increases.

Electronegativity of the elements decrease down a group as the electrons get added to new shell and the nuclear charge increases, but the effect of addition of shells is more dominant  and thus the size increases and the tendency of the elements to attract the shared pair of electrons itself decreases.

To find the number of moles in a 30.5-gram sample of glucose, calculate its molar mass (180.16 g/mol) and divide the sample mass by this number, resulting in approximately 0.1693 moles of glucose.

To calculate the number of moles of glucose in a 30.5-gram sample, we will use the formula:

moles = mass (g) / molar mass (g/mol)

First, we should determine the molar mass of glucose [tex](C_6H_{12}O_6)[/tex]. The atomic masses of carbon (C), hydrogen (H), and oxygen (O) are roughly 12.01 g/mol, 1.008 g/mol, and 16.00 g/mol, respectively. Therefore, the molar mass of glucose is calculated by summing up the atomic masses of all the atoms in one molecule:

(6 × 12.01 g/mol) for carbon,

(12 × 1.008 g/mol) for hydrogen,

(6 × 16.00 g/mol) for oxygen

This gives us:

(6 × 12.01) + (12 × 1.008) + (6 × 16.00) = 180.16 g/mol

Now, dividing the mass of the glucose sample by the molar mass gives us the number of moles:

30.5 g / 180.16 g/mol = 0.1693 mol

Therefore, a 30.5-gram sample of glucose [tex](C_6H_{12}O_6)[/tex] contains approximately 0.1693 mol of glucose.

Answer:

c. within an active cell is the correct answer.

Explanation:

Enzymes are produced only within an active cell.

Enzymes are formed from the amino acids.

Enzymes are the proteins, that are produce within the active cell and they speed up the reaction rate that takes place inside the cells.  enzymes are produced in ribosomes.

Enzymes help the cells to interact with each other and help in cell growth.

[tex]\boxed{\text{Deposition}}[/tex] is shown in the given model.

Further Explanation:

Condensation

The process by which a substance in its gaseous or vapor form is transformed into its liquid form is termed as condensation. It is just the reverse of evaporation. The random motion of gas particles is reduced and they come together to form a liquid. This is done by altering the temperature and pressure of the substance.

Deposition

The phase transition due to which a gas or vapor transforms directly into solid by not going through the liquid phase is termed as deposition. It is a thermodynamic process. This process occurs when water vapors release enough of its thermal energy and get converted into solids directly without passing through the liquid state. It is the opposite of what is done in the sublimation process and is therefore known as desublimation.

Boiling

The phase transition due to which gaseous or vapor state is formed from the liquid state is known as boiling. This takes place when a substance in its liquid state is heated to its boiling point.

Freezing

It is a process in which the substance gets converted from its liquid state to a solid state. It is just the reverse of melting. In this phase transition, heat is released from the substance and the liquid particles come closer to form solid. The formation of ice is an example of freezing.

In the given model, gaseous or vapor state is transformed into a solid state and this phase change occurs in case of deposition. Therefore deposition is shown in the given model.

Learn more:

Answer details:

Grade: Senior School

Chapter: Phase transition

Subject: Chemistry

Keywords: deposition, freezing, boiling, solid, liquid, vapor, condensation, desublimation, thermodynamic process.

The oxidation numbers of nitrogen in NH₄⁺, NO₂, and NaNO₃  are -3, +4, and +5, as determined by balancing the charges of other atoms in the compounds.

The oxidation numbers of nitrogen in NH₄⁺, NO₂, and NaNO₃ can be calculated using some simple rules. In NH₄⁺, nitrogen must balance the charge from the four hydrogen atoms, each having an oxidation number of +1, leading to the oxidation number of nitrogen being -3. For NO₂, oxygen typically has an oxidation number of -2, with two oxygen atoms that would contribute an overall charge of -4, thus nitrogen must have an oxidation number of +4 to balance out and make the molecule neutral. Finally, in NaNO₃, with sodium having an oxidation number of +1, and three oxygen atoms giving a total of -6, nitrogen must have an oxidation number of +5 to balance the overall charge to zero due to the monatomic sodium ion.

Therefore, the respective oxidation numbers of nitrogen in NH₄⁺, NO₂, and NaNO₃ are -3, +4, and +5.

The pH of the 0.200 mol dm⁻³ ethanoic acid solution is 4.76. The ethanoic acid is represented by (CH₃COOH).

To calculate the pH of a solution of ethanoic acid, you can use the formula:

pH = pKa + log([A-]/[HA])

Since ethanoic acid (CH₃COOH) is a weak acid, it partially dissociates in water to form acetate ions (CH₃COO⁻) and hydrogen ions (H⁺).

The dissociation equation is:

CH3COOH ⇌ CH3COO⁻ + H⁺

At equilibrium, the concentration of the acetate ion will be equal to the concentration of the undissociated acid, so [A-] = [HA].

Now, substituting these values into the pH formula:

pH = 4.76 + log([A-]/[HA])

= 4.76 + log(0.200/0.200)

= 4.76 + log(1)

= 4.76 + 0

= 4.76

Therefore, the pH of the 0.200 mol dm⁻³ ethanoic acid solution is 4.76.

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Answer:

Solar radiation

Explanation:

In general there are three forms of energy: heat, light and sound. Energy transfer takes place as energy moves from one object to another in a certain medium or in vacuum.

The heat energy or the electromagnetic energy from sun strikes the earth surface in the form of radiation. This is also called solar energy or solar radiation.

the first one is correct because one mole of oxygen is half of 2O2 so it is half of the energy

The concentration of hydrofluoric acid in the solution, calculated using the given pH and the acid dissociation constant Ka, is about 0.069 M.

The problem is asking us to find the concentration of hydrofluoric acid in a solution where pH and Ka are given. We can use the following formula that relates pH, Ka, and the concentration of the acid [Ha]:
pH = -log([H+]), and since for weak acids [H+] ~= sqrt(Ka × [Ha]), we can substitute and solve for [Ha].
Thus, [Ha] = ((10^-pH)²) / Ka = ((10⁻³)²) / 6.8×10⁻⁴ = 0.069 M. So, the concentration of hydrofluoric acid in the solution is approximately 0.069 M.

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To find the total concentration of the hydrofluoric acid, we use the dissociation constant and the pH to determine the hydronium ion concentration. We then assume ionic product equals hydronium ion concentration. This allows us to calculate the initial concentration of the hydrofluoric acid as approximately 3.16 M.

The question deals with hydrofluoric acid (HF) whose dissociation constant, Ka is given to be 6.8 x 10^-4. The pH of the solution is given to be 3.67. First, we need to find the concentration of hydronium ions: [H3O+] from the given pH using the relationship pH = -log[H3O+], which gives us [H3O+] = 10^-3.67 = 2.15 x 10^-4 M.

Next, we use the formula for the dissociation constant Ka of an acid, which is [H3O+][F-]/[HF]. Here [H3O+] = 2.15 x 10^-4 and [F-] = x, where x is the concentration of the anion produced. [HF] is the initial concentration of HF which we are trying to find. By assuming that x is much smaller than [HF] and hence can be neglected in the denominator, we set [H3O+] = [F-] = x = 2.15 x 10^-4. Rearranging the equation, we find that [HF] = Ka/x = (6.8 x 10^-4) / (2.15 x 10^-4) = 3.16 M.

Thus, the total concentration of hydrofluoric acid in the solution is approximately 3.16 M.

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Answer:

C. It does not address threats to genetic diversity.

Another APEX Answer:

It ignores threats to genetic diversity.

Answer:

Option D

Explanation:

The Treaty on Plant Genetic Resources also known as International seed treaty was passed in order to guarantee food security, sustainable use of world’s genetic resource along with preserving farmers right. Some of the limitations of this treaty are  

a) Limited interventions to preserve the biodiversity

b) Limited extent of  intellectual property rights  on genetic resources  

c) Unclear extent of freedom to framers to use, exchange, sell and breed seeds

Hence, option D is correct

A 1 molal solution of NaCl would have a lower boiling point elevation than a 1 molal solution of MgCl₂, because NaCl dissociates into fewer ions than MgCl₂, resulting in a lower can't Hoff factor.

The question asks which 1 molal solution has a higher boiling point compared to a 1 molal solution of MgCl₂. The boiling point elevation of a solution is affected by the number of solute particles in the solution, which is related to the can't Hoff factor (i), the measure of ion dissociation of a solute. Since MgCl₂, FeCl₂, CaCl₂, and BaCl₂ all dissociate into three ions (1 cation and 2 anions) when dissolved in water, their boiling point elevation would be expected to be similar given equai molal solutions. However, NaCl dissociates into two ions, thus a 1 molal solution of NaCl would have a lower boiling point elevation compared to a 1 molal solution of MgCl₂ due to lower i value.

0.479 g of hydrogen will be produced if 25 grams Zn are reacted with 17.5 grams HCl.

Hydrochloric acid is an aqueous solution of hydrogen gas and chlorine gas.

The reaction is

[tex]\rm Zn + 2 HCl = ZnCl2 + H_2[/tex]

The number of moles present in Zn will be  

[tex]\rm \dfrac{25g}{65.38g/mol} = 0.3824 mol[/tex]

The number of moles present in HCl will be

[tex]\rm \dfrac{ 17.5g}{36.46g/mol} = 0.479mol[/tex]

The mass of hydrogen present is  [tex]\rm 0.479mol \times 1/2 \times 2g/mol = 0.479g[/tex]

Thus, The correct option is B. 0.479 g.

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Using Graham's Law of Effusion, we can determine that it takes approximately 4.2 hours for 1.0 l of Cl2 gas to effuse under the same conditions as helium, due to Cl2's higher molar mass.

This question can be answered using Graham's Law of Effusion, which states that the rate of effusion of a gas is inversely proportional to the square root of its molar mass. This means that lighter gases effuse faster than heavier ones. Effusion is the process by which a gas escapes through a pinhole into a vacuum.

The molar mass of helium (He) is approximately 4 grams/mole, while the molar mass of chlorine (Cl2) is approximately 70 grams/mole. If it took 4.5 minutes for 1.0 l helium to effuse, then we can use Graham's law to calculate the time it will take for 1.0 l of Cl2 gas to effuse under the same conditions. It takes about 4.2 hours for 1.0 l of Cl2 gas to effuse under the same conditions as helium.

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Answer: The pressure under the water is 7.29 atm

Explanation:

We are given:

Pressure under the water = 739 kPa

To convert into atm, we use the conversion factor:

1 atm = 101.325 kPa

Converting the pressure from kilo pascals to atmospheres, we get:

[tex]\Rightarrow 739kPa\times \frac{1atm}{101.325kPa}=7.29atm[/tex]

Hence, the pressure under the water is 7.29 atm

To find out how far a 200 N elevator can be lifted with 600 J of energy, the gravitational potential energy formula (Work = mgh) is used to calculate the height by rearranging it to h = W / (mg), yielding the answer.

The question concerns the amount of work (energy expenditure) needed to elevate an object against the force of gravity. Using the work-energy principle, we know that work done on an object is equal to the change in its gravitational potential energy, which can be calculated using the formula Work (W) = mgh, where m is mass, g is the acceleration due to gravity (9.8 m/s2), and h is the height. Given an energy of 600 J, we can calculate the height (h) the elevator can be lifted by rearranging the formula: h = W / (mg). With 200 N representing the weight of the elevator (which also equals the mass times the acceleration due to gravity), the mass (m) of the elevator can be determined as m = 200 N / g, and subsequently, the height it can be lifted with 600 J of energy can be calculated.

Answer is: mass of hydrogen is 2.28 grams.

Balanced chemical reaction: 3H₂ + N₂ → 2NH₃.

m(NH₃) = 12.95 g; mass of ammonia.

n(NH₃) = m(NH₃) ÷ M(NH₃).

n(NH₃) = 12.95 g ÷ 17.03 g/mol.

n(NH₃) = 0.76 mol; amount of ammonia.

From chemical reaction: n(H₂) : n(NH₃) = 3 : 2.

n(H₂) = 3 · 0.76 mol ÷ 2.

n(H₂) = 1.14 mol; amount of hydrogen.

m(H₂) = 1.14 mol · 2 g/mol.

m(H₂) = 2.28 g; mass of hydrogen.