CHEMISTRY COLLEGE

What substance is produced by the reaction: H+[aq]+OH-[aq]=?

Answers

Answer 1

Answer:

Answer:

It produces water.

Explanation:

H+ + OH- produces H2O.

It is a type of Neutralization reaction.

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In one experiment, you do not have the metal oxalate product as dry as possible. How might this affect the pyrolysis procedure?

Answers

In one experiment, you do not have the metal oxalate productas dry as possible. This might affect the pyrolysis procedure by maybe thewater will react with the compound at very high temp; the initial weight of thesample is already incorrect that might cause error in the further calculations.

Answer:

The process would not be attained completely.

Explanation:

Hello,

In chemical reactions, pyrolysis is understood as a thermochemical decomposition or breaking of organic chains at very high temperatures and under the absence of halogens and oxygen. In this case, as a metal oxalate is the organic chain, when it is a product and is not dry as possible, the reaction would not be attained to completion as the water will limit the conversion and the reaction extent.

Best regards.

A titration is carried out to determine the concentration of the acid in an old bottle of aqueous HCl whose label has become unreadable.What is the HCl concentration if 32.1mL of 0.250M NaOH is required to titrate a 30.0mL sample of the acid?

Answers

Answer:

The concentration of HCl is - 0.2675 M

Explanation:

At equivalence point,

Moles of $HCl$ = Moles of NaOH

Considering:-

$Molarity_(HCl)* Volume_(HCl)=Molarity_(NaOH)* Volume_(NaOH)$

Given that:

$Molarity_(NaOH)=0.250\ M$

$Volume_(NaOH)=32.1\ mL$

$Volume_(HCl)=30.0\ mL$

$Molarity_(HCl)=?\ M$

So,

$Molarity_(HCl)* Volume_(HCl)=Molarity_(NaOH)* Volume_(NaOH)$

$Molarity_(HCl)* 30.0=0.250* 32.1$

$Molarity_(HCl)=(0.250* 32.1)/(30.0)=0.2675\ M$

The concentration of HCl is - 0.2675 M

How many electrons are in Fe3+ ?

Answers

23 electrons hope this helps

Answer:

There are 23 electrons in Fe3+

Among these element groups, which is least likely to form ions?: 7A 3A 1A 4A

Answers

The element group which is least likely to form ions is 4A group

explanation

Element of group 4A has 4 valence electrons. for example Carbon which has [He] 2S2 2P2 electron configuration has 4 valence electrons.

Since 4A elements has 4 valence electrons , it means that their valence shell is half filled which is relatively stable. For this reason 4A element readily form ions.

The information below describes a redox reaction.Cr3+(aq)+2Cl-(aq)---->Cr(s)+Cl2(s)
2Cl-(aq)--->Cl2(g)+2e-
Cr3+(aq)+3e- ---->Cr(s)

What is the final, balanced equation for this reaction?
1.) 2cr3+(aq)+6Cl-(aq) ------> 2Cr(s)+3Cl2(g)
2.) 2Cr3(aq)+2Cl-(aq)+6e- --->Cl2(g)+2Cr(s)
3.) Cr3+(aq)+6Cl-(aq)+3e- ---->2Cr(g)+3Cl2(g)
4.) Cr3+(aq)+2Cl-(aq)------>Cr(s)+Cl2(g)

Answers

Answer: option 1) 2Cr3+(aq)+6Cl-(aq) ------> 2Cr(s)+3Cl2(g)

Explanation:

1) Write the oxidation half-reaction:

$2Cl^-(aq)---\ \textgreater \ Cl_2(g)+2e^-$

2) Write the reduction half-raction:

$Cr^(3+)(aq)+3e^(-)---\ \textgreater \ Cr(s)$

3) Multiply each half-reaction by the appropiate coefficient to equal the number of electrons of both half-reactions.

$6Cl^(-)(aq)---\ \textgreater \ 3Cl_2(g)+6e^(-) 2Cr^(3+)(aq)+6e^(-)---\ \textgreater \ 2Cr(s)$

4) Add both half-reactions

$2Cr^(3+)+6Cl^(-)(aq)---\ \textgreater \ 2Cr(s) +3Cl_2(g)$

And that is the answer. You can count the atoms and charges on every side and check they are equal.

Answer:

Explanation:

got it correct on edge

how does the volume of an ideal gas at constant temperature and pressure change as the number of moleculess increeases

Answers

Answer:

Explanation:

This question seeks to test the knowledge of Avogadro's law. Avogadro's law states that equal volume of gases, at constant temperature and pressure, contain the same number of molecules. The meaning here is that the volume of a given mass of (ideal) gas is directly proportional to the number of molecules. Thus, an increase in volume of an ideal gas will lead to an increase in the number of molecules of the gas. Also, an increase in the number of molecules of an ideal gas will lead to an increase in the volume of the gas at constant temperature and pressure.

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