Write chemical equation for second step of a born - haber cycle. bai2

The work done in the chemical reaction is 3.20 J.

The work done in a chemical reaction can be calculated using the formula:

Work (W) = -P ∆V

Where P is the pressure and ∆V is the change in volume. In this case, the volume decreases from 5.00 to 1.26 L against a constant pressure of 0.857 atm. To calculate the work, we need to calculate the change in volume:

∆V = Vfinal - Vinitial = 1.26 L - 5.00 L = -3.74 L

Substituting the values into the formula, we have:

Work (W) = -P ∆V = -(0.857 atm) (-3.74 L) = 3.20 J

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The work done in the chemical reaction can be calculated using the formula W = P∆V, which gives the result as 292.1 Joules.

Work done, especially in a process involving a gas, can be calculated when the pressure is constant and the volume changes. This is often referred to as pressure-volume work. In this particular case, we are given a process in a chemical reaction where the volume decreases from 5.00 to 1.26 L (a decrease of 3.74 L or 3.74 x 10^-3 m^3) against a constant pressure of 0.857 atm (which equals 0.857 x 1.01325 x 10^5 N/m^2). The formula to calculate work done is W = P∆V.

Inserting the given values into the formula, W = 0.857 x 1.01325 x 10^5 N/m^2 x 3.74 x 10^-3 m^3 which equals approximately 292.1 J (joules). Therefore the work involved in the chemical reaction is 292.1 J.

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Answer: Polar covalent

Explanation:

Sensory neurons, interneurons in spinal cord, motor neurons shows the path followed by nerve impulses in a reflex. Sensory neurons are the neurons that carry information from the environment externally to the central nervous system (CNS) mainly brain and motor neurons are those which carry information from CNS to other parts.  

A human perceives something then by sensory neurons the information goes to CNS and that information is further passed by interneurons in spinal cord and is further passed by motor neurons from CNS to other parts to perform stimulus of perception.

Answer: The energy associated with blue light is [tex]49.65\times 10^{-20}J[/tex]

Explanation:

To calculate the energy of the light for a given frequency, we use the equation given by Planck, which is:

[tex]E=h\nu[/tex]

where,

E = energy of the light

h = Planck's constant = [tex]6.62\times 10^{-34}Js[/tex]

[tex]\nu[/tex] = frequency of the light = [tex]7.5\times 10^{14}s^{-1}[/tex]

Putting values in above equation, we get:

[tex]E=6.62\times 10^{-34}Js\times 7.5\times 10^{14}s^{-1}=49.65\times 10^{-20}J[/tex]

Hence, the energy associated with blue light is [tex]49.65\times 10^{-20}J[/tex]

[tex]\rm 49.65 \times 10^-^2^0\;J[/tex] is the energy associated with the frequency.

The number of times a repeated event occurs per unit of time is known as frequency.

The frequency of the blue light is 7.5 x 1014 Hz

To calculate the energy of the light, we will use plank's equation

[tex]\rm E = hv[/tex]

Where E = energy

[tex]\rm Plank's \;constant = 6.62 \times 10^-^3^4 Js\\\\ Frequency \;of \;the\;light\;v = 7.5 \times 10^-^1^4 s^-^1[/tex]

Putting the values

[tex]\rm E =6.62 \times 10^-^3^4 \times 7.5 \times 10^-^1^4 = 49.65 \times 10^-^2^0\;J[/tex]

Thus, the energy associated with this frequency is [tex]\rm 49.65 \times 10^-^2^0\;J[/tex]

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The Alkali metals includes

The alkali metals are the metal which react with water forms alkalies that is strong bases capable of neutralizing acids.

The alkali metals have the high thermal and electrical conductivity, lustre, ductility, and malleability all are the characteristic of metals. Each alkali metal atom contains a single electron in its outermost shell. This valence electron is much more weakly bound than those in inner shells.

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Answer:

Helium gas, symbol He

Explanation:

The gas that causes voice to change upon inhalation is helium which belongs to the inert gas/noble gas series in the periodic table. The chemical symbol is He.

When He gas is inhaled it fills up the vocal tract and replaces some of the air present in the cavity. Now, the density of He is much lower than that of air as a result the speed of sound as it passes through the vocal cavity increases which leads to a change in voice.

Answer:

The correct answer from the given options is option 1.2 L.

Explanation:

Volume of the gases when 0.65 moles of gas are present = [tex]V_1=750 mL=0.750 L[/tex]

Volume of the gas when there 0.35 moles of gas are added= [tex]V_2[/tex]

[tex]n_1=0.65 moles,n_2=0.65+0.35 moles=0.10 moles[/tex]

According Avogadro law of gases:

[tex]\frac{V_1}{n_1}=\frac{V_2}{n_2}[/tex]

[tex]V_2=\frac{V_1\times n_2}{n_1}=1.15 L[/tex]

The closest answer from the given options is option 1.2 L.

From the explanation, we are given that:

The volume of gas it occupies when [tex]0.35moles[/tex]  = [tex]{V_2}[/tex] (unknown)

Therefore we have:

[tex]{n_2}[/tex] = [tex]0.65[/tex]  + [tex]0.35[/tex]  = [tex]0.10moles[/tex]  , [tex]{n_1}[/tex] = [tex]0.65moles[/tex]

To solve this question, we have to consider the Avogadro’s law, which state that "equal volumes of all gases, at the same temperature and pressure, have the same number of molecules”

The law can be expressed as:

[tex]\frac{V_1}{n_1}=\frac{V_2}{n_2}[/tex]

[tex]V_2=\frac{V_1\times n_2}{n_1}[/tex]

[tex]V_2=\frac{0.750\times 0.10}{0.65}[/tex] = [tex]1.15L[/tex]

[tex]1.2L[/tex]

Therefore, the correct answer is 1.2L

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KEYWORDS:

Final answer:

Atoms of an element are identical in atomic structure but can include different isotopes. Samples of beryllium and carbon can contain isotopes, but most atoms will be of the most common isotope. The presence of atoms with a mass number greater than 12 in a carbon sample indicates isotopes like carbon-13 or carbon-14.

Explanation:

If you have a sample of beryllium, the atoms within that sample would be identical in terms of their atomic structure, meaning each atom has the same number of protons, neutrons, and electrons. However, any sample of an element, including beryllium and carbon, can contain different isotopes, which means there can be atoms with different numbers of neutrons. For example, the most prevalent isotope of carbon is carbon-12, with 6 protons and 6 neutrons. In addition to carbon-12, we also find carbon-13, with an extra neutron, and carbon-14, with two extra neutrons.

When you analyze a sample of carbon and find that 6% of the atoms have a mass number greater than 12, you can conclude that 6% of the sample is comprised of carbon isotopes. This means the vast majority (94%) of your sample is carbon-12, the normal atomic mass of carbon, while the remaining part consists of isotopes like carbon-13 and the radioactive carbon-14. Carbon-14 is used in radiocarbon dating, a tool for archaeological studies.

Explanation:

Kinetic energy is defined as the energy obtained by the molecules of a substance because of their motion.

Hence, when a substance or object is moving from its initial position then it means it has some amount of kinetic energy.

So, if molecules are moving then they have possessed kinetic energy and 3 things these molecules will do are as follows.

Answer: The configuration of lithium element is [tex]1s^22s^12p^03s^03p^04s^03d^04p^05s^0[/tex]

Explanation:

Electronic configuration is defined as the representation of electrons around the nucleus of an atom.

Number of electrons in an atom is determined by the atomic number of that atom.

We are given:

Atomic number = 3

The element having atomic number '3' is lithium

The electronic configuration of lithium element is [tex]1s^22s^1[/tex]

Hence, the configuration of lithium element is [tex]1s^22s^12p^03s^03p^04s^03d^04p^05s^0[/tex]

Answer:

Particles that struck the center of the atom were repelled.

Explanation:

In 1911, New Zealand physicist Ernest Rutherford carried out an experiment in order to deepen his knowledge of the atomic model hitherto adopted, which was that of Thomson; in which the atom would be a sphere of positive, non-massive electrical charge, encrusted with (negative) electrons, so that its total electrical charge would be zero.

To carry out such an experiment he bombed a very thin gold leaf (thickness of approximately 10-4 mm), through a beam of alpha particles (α), coming from a sample of polonium. The polonium was inside a lead block, with an orifice, through which only the emissions of alpha particles would be allowed out.

In addition, lead plates with holes were placed in their centers, which would orient the beam towards the gold blade. And, finally, a bulkhead covered with zinc sulfide, which is a fluorescent substance, was placed behind the slide, where it was possible to visualize the path taken by the alpha particles.

At the end of this experiment, Rutherford noticed that most of the alpha particles passed through the slide, did not deflect or retreat. Some alpha particles deflected, and very few receded. In addition, the particles that reached the center of the atom were repelled.

Based on these data, Rutherford concluded that, contrary to what Dalton thought, the atom could not be massive. But in reality, much of the atom would be empty and it would contain a very small, dense and positive nucleus.

Monosaccharides, disaccharides, and polysaccharides are types of carbohydrates that consist of one, two, and many sugar molecules, respectively. Glucose and fructose are monosaccharides, sucrose and lactose are disaccharides, and starch and cellulose are polysaccharides.

Monosaccharides are the simplest form of carbohydrates and consist of one sugar molecule. Examples include glucose and fructose. Disaccharides consist of two monosaccharide molecules bonded together. Sucrose (table sugar) and lactose (milk sugar) are examples of disaccharides. Polysaccharides are complex carbohydrates made up of many monosaccharides linked together. Starch and cellulose are examples of polysaccharides.

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Answer: The correct answer is chemical reactivity of metals increases.

Explanation:

Chemical reactivity is defined as the tendency of an element to loose of gain electrons.

Metals are the elements which looses electrons and hence, their chemical reactivity will be the tendency to loose electrons. Their chemical reactivity increases as we move from top to bottom in a group. This is so because, the electron get added up in the new shell. So, the electron in the outermost orbital gets far away from the nucleus. And hence, this will be lost easily. Thus, the chemical reactivity gets increases.

Non-metals are the elements which gains electrons and hence, their chemical reactivity will be the tendency to loose electrons. Their chemical reactivity decreases as we move from top to bottom in a group. As, the electrons get added up in the new shell. So, the the electron in the outermost orbital gets far away from the nucleus. And hence, the electron will be difficult to gain. Thus, the chemical reactivity of non-metals decreases.

Hence, the correct answer is chemical reactivity of metals increases.

The balanced equation with the reaction-quotient expression is;

U(s) + 3F₂(g) → UF₆(g)

Keywords: Chemical equations, balancing of chemical equations

Level: high school  

Subject: Chemistry  

Topic: Chemical equations

Sub-topic: Balancing chemical equations  

The balanced chemical equation is U(s) + [tex]3F_2[/tex](g) → [tex]UF_6[/tex](g), and the reaction-quotient expression is Qc = [[tex]UF_6[/tex]] /[tex][F_2]^3[/tex].

To balance the chemical reaction and write the reaction-quotient expression (Qc) for the equation U(s) + [tex]F_2[/tex] (g) → [tex]UF_6[/tex] (g), let's follow these steps:

Step 1: Balance the Chemical Equation

U(s) + [tex]F_2[/tex] (g) → [tex]UF_6[/tex] (g)

U(s) + [tex]3F_2[/tex] (g) → [tex]UF_6[/tex] (g)

Step 2: Write the Reaction-Quotient Expression, Qc

Qc = [[tex]UF_6[/tex]] / [tex][F_2]^3[/tex]

After balancing the equation, U(s) + [tex]3F_2[/tex](g) → [tex]UF_6[/tex](g), the reaction-quotient expression is Qc = [[tex]UF_6[/tex]] / [tex][F_2]^3[/tex]. This helps assess the direction of the reaction to reach equilibrium in a given system.

Answer:

[tex]29 g. NaCl[/tex]

Explanation:

we know that it's molar mass is [tex]58 \frac{g}{mol}[/tex]

This means that 1 mol of sodium chloride contains 58g of sodium chloride; now How many grams of [tex]NaCl[/tex] are in 0.5 moles?

[tex]1 mol \longrightarrow 58g\\ 0.5 mol\longrightarrow x\\ x=\frac{0.5mol.58g}{1mol}=29g[/tex]

In 0.5 mol of NaCl there will be 29 g of sodium chloride

Answer:

The answer in b

Explanation:

Because if she falls the momentum pushes him/her.

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The two methods used to balance a chemical equation are :

(a) Inspection method.

(b) Algebraic method.

(A) Inspection method – In this method, we examine the equation and find the right balance.

[tex]2NaCl + BeF_2 = NaF + BeCl_2[/tex]

[tex]2NaCl + BeF_2 = 2NaF + BeCl_2[/tex].

(B) Algebraic method

Thus, these are the two methods of balancing a chemical equation.

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Taking into account the definition of isotopes, carbon-14 and nitrogen-14 are not considered isotopes because they have have different atomic numbers.

First of all, all atoms are made up of subatomic particles: protons and neutrons, which are part of their nucleus, and electrons, which revolve around them. Protons are positively charged, neutrons are neutrally charged, and electrons are negatively charged (electrons).

On the other side, the mass number tells us the total number of particles in the nucleus. That is, the mass number is the sum of the number of protons and the number of neutrons in the atomic nucleus:

Mass number = (number of protons) + (number of neutrons)

Then, atomic number is defined as the number of protons or number in the atomic nucleus.

The same chemical element can be made up of different atoms, that is, their atomic numbers are the same, but the number of neutrons is different. These atoms are called isotopes of the element.

In this case, the elements carbon and nitrogen have different atomic numbers (this is different numbers of protons), and the same mass number. So,  carbon-14 and nitrogen-14 are not considered isotopes.

In summary, carbon-14 and nitrogen-14 are not considered isotopes because they have have different atomic numbers.

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The idea that light can act as packets led to the discovery of Quantum mechanics. The correct option is A.

Quantum mechanics is a field of science that deals with the behavior of light and matter. It explains the properties of matter. The electron, proton, and neutron constituency of a matter.

Light has dual nature, which means it can act like both waves and particles. Light is made up of particles that are called photons. Light can also act as quanta or packets, which revealed a new theory, quantum mechanics.

Quantum mechanics help in the field of many inventions, alike circuits, and lasers. Einstein never believed in the theory of quantum mechanics.

Thus, the correct option is A. Quantum mechanics.

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The question is incomplete. Your most probably complete question is given below:

A. Quantum mechanics

B. Nuclear mechanics

C. Electrical mechanics

D. Physical mechanics