Boyle’s Law a. q = mcΔT
b. q = Hvm
c. P₁V₁ = P₂V₂
d. D = m/V
e. K = C + 273

Answers

Answer 1

Answer: the answer is C! We actually just learned this in chemistry xD

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In the early 1880s, the British Scientist John Dalton worked to find the atomic mass of several common elements.How could knowing the atomic mass of an element help a chemist do his or her work? A. The atomic mass could be used to convert that element into another element. B. The atomic mass could be used to identify an element. C. The atomic mass could be used to calculate the number of isotopes formed by the element.
Which is least likely to occur after an experiment is conducted to test a hypothesis?
10. A quantity of a gas has an absolute pressure of 400 kPa and an absolute temperature of 110 degrees kelvin. When the temperature of the gas is raised to 235 degrees kelvin, what is the new pressure of the gas? (Assume that there''s no change in volume.)A. 1.702 kPaB. 3.636 kPaC. 854.46 kPaD. 510 kPa
6. __________________________________________ is the measure of how much water vapor is in the air.

Is there any difference between carbon(iv)oxide and carbon(ii)oxide

Answers

The difference is the no. of charges present in Carbon, meaning Carbon has different charges therefore Roman numerals are used to clarify the exact number.This makes balancing equations easier.

Also their names are different.
CO4 - Carbon tetroxide
CO2 - Carbon dioxide

How many phases does a solution have?explain

Answers

Did you perhaps mean the phase of matter?If so, then a solution has only one phase of matter: liquid. It is always almost always liquid because solutions are made up of a solvent and a solute and a solvent is always a liquid. Though, some may come in an emulsion form, but still it can be considered as liquid

Final answer:

A solution can exist in three phases: solid, liquid and gas, depending on the temperature and pressure. The pH of the solution can also change based on the nature of ions present in it. Understanding the nature and properties of solutions is crucial for many chemical reaction processes.

Explanation:

A solution can exist in three phases depending on the temperature and pressure, which are: gas, liquid, and solid. These are depicted in a phase diagram (an illustrative depiction that shows the states of a substance under different conditions of temperature and pressure).Consider the phase diagrams for a pure solvent and a solution. When a nonvolatile solute is dissolved in a solvent, a solution is formed. These states coexist and are in a state of thermal equilibrium at specific combinations of pressures and temperatures.

In addition to the physical phase, the pH of the solution can also be considered as a 'phase.' The pH can decrease, increase, or even show a pattern of increase and then decrease depending on the nature of ions present in the solution.

Solutions are crucial to life-sustaining processes as well as other chemical reaction processes. It's important to know the nature of solutions and factors determining its formation and properties for understanding various biological, geological and industrial processes.

Learn more about Solution Phases here:

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How many additional electrons can fit into the n = 3 shell of sulfur ?

Answers

TWO more additional electron can fit into that....

Which of the following best describes how chemical changes differ from physical changes?A. Physical changes produce no new substances and chemical changes do.
B. Physical changes always involve the formation of a gas while chemical changes may not.
C. Physical changes can occur inside or outside the substance; chemical changes always occur outside.
D. Physical changes involve a change of state; chemical changes involve a change of shape.

Answers

Answer:

A is the answer.

Explanation:

Physical changes do not change the substance's composition but just the outside qualities. However, chemical changes change the composition of the substance and it's chemical properties.

Answer:

Explanation:

How did Diocletian try to improve Rome’s economy

Answers

He divided the empire into provinces.

Which best describes a reaction in a state of equilibrium? A. The rates of the forward and reverse reactions are zero and the concentrations of products

and reactants are equal.

B. The rate of the forward reaction equals the rate of the reverse reaction and the

concentrations of products and reactants are equal.

C. The rates of the forward and reverse reactions are zero and the concentrations of products

and reactants are constant.

D. The rate of the forward reaction equals the rate of the reverse reaction and the

concentrations of products and reactants are constant.

Answers

The best statement which describes a reaction in a state of equilibrium is letter D. The rate of the forward reaction equals the rate of the reverse reaction and the concentrations of products and reactants are constant.

>Chemical equilibrium is defined as the state in which both reactants and products are present in concentrations which have no further tendency to change with time. This state results when the forward reaction proceeds at the same rate as the reverse reaction. The reaction rates of the forward and backward reactions are generally not zero, but equal. Thus, there are no net changes in the concentrations of the reactant(s) and product(s).