When protons and neutrons join together to make a nucleus, energy is?

Sulfur reacts with oxygen to form sulfur dioxide (SO₂(g), hf = –296.8 kj/mol) according to the equation below. The enthalpy change for the reaction is –296.8 kj.

It is a thermodynamic quantity that is equal to the total heat content of a system. It is equal to the internal energy of the system plus the product of pressure and volume.

Enthalpy is nothing but energy and they are of 4 types in thermodynamics-

1. Internal Energy, U

2. Heat enthalpy, H

3. Helmholtz enthalpy, A

4. Gibb's Free enthalpy, G

The total energy of a system cannot be measured directly because the internal energy contains components that are unknown, not easily accessible, or are not of interest in thermodynamics.

Enthalpy change for reaction = Enthalpy of formation of SO₂ - Enthalpy of formation of O₂

Enthalpy of formation of O₂ = 0

Therefore, Sulfur reacts with oxygen to form sulfur dioxide (SO₂(g), hf = –296.8 kj/mol) according to the equation below. The enthalpy change for the reaction is –296.8 kj.

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To determine the value of x in the rate law expression rate = k[A]^x we set up equations based on the given conditions and solve for x. However, the provided conditions imply two different values for x which suggests a misunderstanding since the reaction order cannot have two different values under the same conditions.

The question is asking to determine the value of x in the rate law expression rate = k[A]^x given that the rate doubles when the concentration of A is doubled and the rate quadruples when the concentration of A is doubled. This can be determined by substituting the given conditions into the rate law expression and solving for x.

For the first condition, when [A] is doubled, the rate doubles. This means if the initial rate is R with an initial concentration [A], the rate with 2[A] will be 2R. Plugging this into the rate law, we get: 2R = k(2[A])^x. Dividing both sides by R we get 2 = 2^x, which implies that x = 1.

For the second condition, we are told if [A] is doubled, the rate quadruples. So, we expect 4R = k(2[A])^x. By the same reasoning, 4 = 2^x, which gives us x = 2.

However, this presents a contradiction since we cannot have an x equal to 1 and an x equal to 2 at the same time. Therefore, it's possible that some additional information is missing or has been misinterpreted. The scenario where the rate doubles or quadruples accordingly implies that the order x is directly proportional to the factor by which the rate increases. Based on the conditions provided, two different orders are suggested which is not possible for a single reaction under the same conditions.

The plastic is a polymer. A polymer is defined as a substance which is made from the monomers. The plastic is made of petroleum or coal materials. The correct option is D.

The wide range of synthetic or semi synthetic materials which use polymers as a main ingredient is defined as the plastic. The property plasticity makes it possible for the plastics to be moulded or pressured into objects of various shapes.

Most of the modern plastics are from the fossil fuel based chemicals such as natural gas or petroleum. The raw materials like natural gas, oil or plants are refined into ethane and propane. Both of these molecules are subjected to a process called cracking.

As a result of cracking, ethane and propane changes into ethylene and propylene. These materials are combined to form many polymers.

Thus the correct option is D.

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Answer:

Sugar

Explanation:

Sugar Transport. Sugars, which are formed by the plant during photosynthesis, are an essential component of plant nutrition. Like water, sugar (usually in the form of sucrose, though glucose is the original photosynthetic product) is carried throughout the parts of the plant by the vascular system. Welcome.

Answer:

A,B,C,E, and H

Explanation:

Unagi

In the passage, the biotic factors are the steak and the potatoes, which are derived from living organisms - an animal and a plant, respectively. Other mentioned items like the wooden stool and ceramic dishes are abiotic factors and, therefore, not highlighted as biotic. The importance of biotic factors, such as potatoes, in ecology and human history is also discussed, including their role in the Irish potato famine.

The student has asked to highlight all of the biotic factors in the given passage. In ecology, biotic factors are the living components of an environment, which include organisms from the same or different species. Examples of biotic factors in the scenario provided would be the steak, since it comes from an animal, and the potatoes, as they are plant-based food. Both of these are derived from living organisms, making them biotic factors.

Contrastingly, abiotic factors refer to the non-living components such as sunlight, soil, and water which are also mentioned in the background information provided. The wooden stool, boiling water, and ceramic dishes mentioned in the passage are examples of abiotic factors since they are non-living and do not directly represent former living organisms.

To put it in context, potatoes as mentioned in the scenario, are significant biotic factors in human diets and ecosystems, as they are photosynthetic autotrophs and interact with abiotic factors like soil nutrients, water, and sunlight to grow. The Irish potato famine, caused by late blight of potato (Phytophthora infestans), illustrates the importance of biotic interactions, particularly how diseases can impact plant populations and subsequently human societies.

Answer:

               The Equilibrium will shift to the left.

Explanation:

                      The reaction at equilibrium is as follow,

                              CH₃COOH       ↔    CH3COO⁻ + H⁺

According to Le Chatelier's Principle," When a system (reaction) at equilibrium is subjected to any stress (like change in Concentration, Pressure, Temperature e.t.c) the system (reaction) tends to adjust itself in such a way so as to minimize the effect of that change".

Hence, in above reaction when Sodium Acetate (source of CH₃COO⁻) is added the equilibrium will shift in left side and will decrease the concentration of CH₃COO⁻ions.

Final answer:

The addition of CH₃COONa, which contributes more acetate ions, will result in a leftward shift of the chemical equilibrium of the reaction CH₃COOH ⇌ CH₃COO⁻ (aq) + H⁺(aq), as predicted by Le Chatelier's principle.

Explanation:

When CH₃COONa is added to the solution, the chemical equilibrium of the reaction CH₃COOH ⇌ CH₃COO− (aq) + H⁺(aq) will shift. This is because CH₃COONa disassociates in water to form sodium ions (Na⁺) and acetate ions (CH₃COO⁻). By Le Chatelier's principle, adding more of a product (in this case, CH₃COO⁻) will shift the equilibrium to the left, towards the reactants, to counteract the change. This results in a decrease in the H+ concentration and is known as the common ion effect.

The equilibrium will therefore shift toward the formation of CH₃COOH, causing the concentration of CH₃COO⁻ and H⁺ to be reduced, which is in line with Le Chatelier's principle of equilibrium adjustment.

Electronegativity is the term which describes the degree to which an element attracts electrons in a bond. It's different from electron affinity, which involves energy exchange when an isolated atom acquires an electron. More nonmetallic elements, due to their high electronegativities, can form covalent compounds called oxyacids.

The term that describes the degree to which an element attracts electrons is known as electronegativity. This is a property of atoms that determines how the shared electrons in a bond are distributed. For example, in a polar covalent bond, the electrons are shifted toward the more electronegative atom, and this atom is the one that acquires a partial negative charge.

There is, however, an important distinction between electronegativity and electron affinity. The electron affinity of an element refers to the energy released or absorbed when an isolated gas-phase atom acquires an electron. But electronegativity involves attraction of electrons within a bond.

High electronegativities are characteristic of the more nonmetallic elements. These elements can form covalent compounds containing acidic -OH groups that are called oxyacids.

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Answer:

The heat of reaction for the combustion of a mole of Ti in this calorimeter is -16,557.69 kJ/mol.

Explanation:

Mass of  titanium = 1.000 g

Moles of titanium =[tex]\frac{1 g}{47.87 g/mol}=0.0208 mole[/tex]

Heat capacity of the calorimeter ,c= 9.84 kJ/K

Initial temperature of the calorimeter ,T=25°C =298 K

Final temperature of the calorimeter ,T'= 60°C = 333 K

Heat gained by calorimeter = q

[tex]q=c\times \Delta T= 9.84 kJ/K\times(333K-298 K)=344.4 kJ[/tex]

Heat of combustion released when 1 g of titanium = -344.4 kJ

Heat if released that is why negative sign is used.

In 1 g of titanium = 0.0208 mole

Heat of combustion of 0.0208 moles of titanium = -344.4 kJ

Heat of combustion of 1 moles of titanium:

[tex]\frac{-344.4 kJ}{0.0208}=-16,557.69 kJ[/tex]

The heat of reaction for the combustion of a mole of Ti in this calorimeter is -16,557.69 kJ/mol.

Answer: Option (C) is the correct answer.

Explanation:

Non-metals are the substances which gain electrons in order to gain stability and hence they form anions.

Some properties of non-metals are as follows.

But non-metals when gain an electron they they acquire a negative charge. Hence, when non-metal is present in ionic form in a solution then it is able to conduct electricity.

Thus, we can conclude that has a negative charge when a current is run through its solution is a characteristic of most non-metals and is not a characteristic of most metals.

Answer : This chemical equation represents a single replacement reaction.

Explanation :

Single replacement reaction : It is defined as the reaction in which the most reactive metal displace the least reactive metal form its solution.

The given balanced chemical reaction is:

[tex]Fe(s)+CuSO_4(aq)\rightarrow FeSO_4(aq)+Cu(s)[/tex]

The given chemical reaction is a single replacement reaction because in this reaction, iron is most reactive metal than the copper. So, iron can displace the copper metal form its solution and it forms iron (II) sulfate and copper as a product.

Hence, the chemical equation represents a single replacement reaction.

an addition polymer, because your continuing the chain

Some molecules begin sticking together when you add in more molecules because like attracts like and opposites repel.

A collection of two and more substances joined through chemical bonds is still referred to as a molecule.

like attracts like means It is repulsive when two items with identical charges interact. That is fascinating to watch how two objects with opposing charges interact.

Some molecules begin sticking together when you add in more molecules because like attracts like and opposites repel

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To determine the equilibrium partial pressures for the components of phosgene decomposition, we first establish the initial conditions and use the given equilibrium constant. We then set up an equation based on the changes at equilibrium and solve it to find the equilibrium partial pressures.

The decomposition of phosgene (COCl2) into carbon monoxide (CO) and chlorine gas (Cl2) can be observed using the equation COCl2(g) ⇌ CO(g) + Cl2(g). From the problem, we can consider an initial pressure of 0.760 atm of COCl2 and a negligible amount of CO and Cl2. Given that the equilibrium constant (Kc) for this reaction is 4.63 x 10-3, we can set up an equation derived from the equilibrium expression: Kc = (PCO x PCl2)/PCOCl2.

As the reaction proceeds, the pressure of COCl2 decreases by an 'x' amount to establish equilibrium, and the pressure of CO and Cl2 increases by the same 'x' amount. Thus, at equilibrium: Kc = ((0.760-x)x)/x. Solving this equation for 'x', we can obtain the equilibrium partial pressure of all components in the system.

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Hydrogen and lithium both have one valence electron, causing them to behave similarly in chemical reactions. Hence, lithium is the correct answer.

The number of valence electrons an element has determines its behavior in chemical reactions. Hydrogen (H) has one valence electron in its outermost energy level. Looking at the given options, the correct answer is D. lithium (Li).

Just like hydrogen, lithium also has one valence electron in its outermost energy level, which causes it to behave similarly in chemical reactions to hydrogen. The other options - helium (He) has two valence electrons, oxygen (O) has six, and nitrogen (N) has five, so none of these elements behave like hydrogen in chemical reactions.

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Using the van't Hoff equation and the provided equilibrium constants at two different temperatures, the enthalpy change (ΔHrxn) of the reaction can be calculated.

The student wants to find the change in the heat content, or enthalpy change (ΔHrxn), of a reaction given the equilibrium constants at different temperatures. This can be done through the van't Hoff equation, which relates the equilibrium constant (K) to temperature (T) and enthalpy change (ΔHrxn). Using the provided equilibrium constants at 298 K and 764 K, as well as the constants 55.7 x 103J/mol and 8.314 J/mol K, we can set up and solve the van't Hoff equation to calculate ΔHrxn.

The van't Hoff equation is ln(K2/K1) = (-ΔHrxn/R)(1/T1 - 1/T2), where R is the ideal gas constant (8.314 J/mol K). By rearranging for ΔHrxn, we can input the given values for K1, K2, T1, and T2 to determine the enthalpy change for the reaction.

Due to the formation of hydrogen bonds, methanol is highly soluble in water.

Hydrogen bonding may be defined as a type of electrostatic force of attraction between a hydrogen atom that is significantly bonded to a more electronegative atom such as Nitrogen, Oxygen, and fluorine. There are generally two types of hydrogen bonding that exist in nature.

The molecules of water typically are polar in nature. Due to this, the hydrogen of one water molecule significantly forms a hydrogen bond with the oxygen of the same or different water molecules.

Water is an extensive framework of hydrogen bonds. This also leads to the methanol solubility in water due to hydrogen bonding between methanol and water molecules.

Therefore, methanol is highly soluble in water, due to the formation of hydrogen bonding.

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Ans: Lowest coefficient in front of Ca(OH)2 is 3

Given equation:

Ca(OH)2 + H3PO3 → Ca3(PO3)2 + H2O

Reactants:                  Products:

Ca = 1                          Ca = 3

O = 5                           O = 7  

H = 5                           H = 2

P = 1                             P = 2

Balanced equation:

3Ca(OH)2 + 2H3PO3 → Ca3(PO3)2 + 6H2O