How does the solubility of a gas change with increasing temperature

Answers

Answer 1

Answer:

The definition of solubility is the maximum quantity of solute that can dissolve in a certain quantity of solvent or quantity of solution at a specified temperature or pressure (in the case of gaseous solutes). For Gases, solubility decreases as temperature increases (duh...you have seen water boil, right?) The physical reason for this is that when most gases dissolve in solution, the process is exothermic. This means that heat is released as the gas dissolves. This is very similar to the reason that vapor pressure increases with temperature. Increased temperature causes an increase in kinetic energy. The higher kinetic energy causes more motion in the gas molecules which break intermolecular bonds and escape from solution. Do you need any more?

Related Questions

Complete the paragraph to describe the characteristics of a silicon tetrahydride molecule (SiH4). The Lewis structure and table of electronegativities are given.
What is the mass of the block of iron illustrated below?
1.)Which of these is a unit of pressure?I. torrII. mm of HgIII. LI onlyI and IIII onlyII and III2.)Decreasing the temperature of a gas will __________.increase the collision rate between gas particlesdecrease the collision rate between gas particlesdecrease the amount of gas particles in the gasnot affect the collision rate between gas particles3.)Which of the following pressures is equal to 2.0 atm?202.6 Pa202.6 kPa202,600 kPa202,600 Pa4.)What is the correct calculation when converting 4.1 atmospheres to kilopascals?5.)Decreasing the temperature of a gas decreases the pressure because __________.the collision rate between gas particles increasesthe collision rate between gas particles decreasesthe volume of the gas increasesthe amount of gas decreases6.)Which of these is a unit of pressure?I. kPaII. torrIII. gI onlyI and IIII onlyII and III7.)How many millimeters of mercury is 2.64 atmospheres equivalent to?2.01 x 103 mm Hg3.47 x 10-3 mm Hg2.88 x 102 mm Hg2.64 mm Hg8.)Which of these quantities are equal to 303,900 Pa? ( multiple answers)303.9 atm3.0 atm44.1 psi1520 mm Hg
Please answer number 76,77 and 78.
imagine a drop of water hanging from your finger. how is this similar to the water staying together after the balloon is popped

19. Which atom in a water molecule has the greatest electronegativity?a. one of the hydrogen atoms
b. both hydrogen atoms
c. the oxygen atom
d. There is no difference in the electronegativities of the atoms in a water molecule.

Answers

The oxygen atom in a water molecule has the greatest electronegativity. Therefore, the correct option is option C.

What is electronegativity?

The tendency of an atom of a particular chemical element could attract shared electrons while forming a chemical bond is represented by the symbol. The electronegativity of an atom is determined both by its atomic number as well as the distance between its valence electrons and the charged nucleus.

The higher the related electronegativity, the more electrons an atom or substituent group attracts. Electronegativity is a simple approach to quantify bond energy as well as the sign and degree of a bond's molecular polarity, that describes a bond all along continuum between covalent through ionic bonding. The oxygen atom in a water molecule has the greatest electronegativity.

Therefore, the correct option is option C.

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Answer:

The Oxygen Atom

Explanation:

Model of the plant cell

Answers

Hey there. I did not build a model for you. Below is a picture of a Plant Cell that you could get some ideas from.

Best Of Luck,

- Ari -

Final answer:

A plant cell is a type of cell found in green plants that is responsible for photosynthesis. It contains a cell wall, chloroplasts, and a central vacuole, which distinguish it from animal cells. Plant cells also include plastids and typically do not have lysosomes or centrosomes.

Explanation:

A plant cell is a type of cell found in green plants that is responsible for performing photosynthesis. It contains various elements that distinguish it from animal cells. Major components include:

Cell Wall: A rigid structure made predominantly of cellulose, which provides protection and structural solidity to the cell.
Chloroplasts: Organelles where photosynthesis occurs, using sunlight to convert carbon dioxide and water into glucose and oxygen.
Central Vacuole: A large organelle filled with water and enzymes that helps in maintaining cell turgor pressure, storage of nutrients and waste products.

Unlike animal cells, plant cells also contain plastids and do not usually have lysosomes or centrosomes.

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Examples of a cell wall

Answers

✡ Answer: A example of this is a wall surrounding fungi (a cell wall)✡

- - Why?
Because this is a good example of a cell wall, and it is commonly used in most science lessons (in my school atleast)

✡Hope this helps✡

a gate protecting the house inside

How many types of nomenclature in the features of organic chemistry? What are they?

Answers

Answer:

there are two types of nomenclature used in organic system. the most widely used and universally accepted system of nomenclature is the IUPAC system of nomenclature. some compounds are referred to by their common name that existed before the IUPAC system or is more widely known than the IUPAC names.

Explanation:

IUPAC ( international union of pure and applied chemistry) system of nomenclature is used to name compounds in organic system. there are some principles to be followed while using this nomenclature. some of them are:-

1) identification of parent chain is the first step. the longest hydrocarbon chain is the parent chain.

2) identification of all the substituent groups of the parent chain is also required.

3) hydrocarbon cyclic ring has a fixed prefix and that is cyclo.

Find the ΔH for the reaction below, given the following reactions and subsequent ΔH values: PCl5(g) → PCl3(g) + Cl2(g) P4(s) + 6Cl2(g) → 4PCl3(g) ΔH = -2439 kJ
4PCl5(g) → P4(s) + 10Cl 2(g) ΔH = 3438 kJ

Answers

The value of ΔH will be 249.75 KJ.

To obtain the reaction :

PCl5(g) → PCl3(g) + Cl2(g)

We have to add the given reactions and then divide it by 4.

(i) adding the reactions

P4(s) + 6Cl2(g) → 4PCl3(g) ΔH = -2439 kJ

4PCl5(g) → P4(s) + 10Cl 2(g) ΔH = 3438 kJ

we get:

4PCl5(g) → 4PCl3(g) + 4Cl2(g), ΔH = 3438 - 2439

(ii) dviding by 4

PCl5(g) → PCl3(g) + Cl2(g) , ΔH = (3438 - 2439)/4

ΔH = 249.75 kJ is the required enthapy.

Learn more about enthalpy:

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Answer:

The value of $\Delta H$ for the desired reaction will be 249.75 KJ.

Explanation:

The desired reaction is shown below

$\textrm{PCl}_(5)\left ( g \right )\rightarrow \textrm{PCl}_(3)\left ( g \right )+\textrm{Cl}_(2)\left ( g \right )$

The desired reaction can be obtained by adding the given reactions and then dividing both sides by 4.

$P_(4)\left ( s \right )+6Cl_(2)\left ( g \right )\rightarrow 4PCl_(3)\left ( g \right ) \n4PCl_(5)\left ( g \right )\rightarrow P_(4)\left ( s \right )+10Cl_(2)\left ( g \right )$

Net Enthalpy change for the desired reaction

$\displaystyle (3438-2439)/(4) \textrm{ KJ} = 249.75 \textrm{ KJ}$

$\Delta H = 249.75 \textrm{ KJ}$

One isotope of nitrogen has 7 protons and 8 neutrons. Which is the correct reference for this isotope? A.
nitrogen-15

B.
nitrogen-8

C.
nitrogen-7

D.
nitrogen-1

Answers

D nitrogen-1 because you divide the two numbers to get what left of the nitrogen

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