Assume you do not know which peak in GC chromatogram corresponds to each alkene (and you are not sure whether the one with lower boiling point will appear first). Propose how you can identify which peak corresponds to which alkene in terms of "spiking products"

Answers

Answer 1

Answer: GC chromatograms often already have a library of compounds to determine what the substance is. In case the compound cannot be found in the library, one common alternative scientists use when performing is spiking.

Spiking involves gradually increasing the concentration of one specific compound, and looking for a rise in peak height. Here, you can identify which peak corresponds to the compound you spiked. You can do this for each alkene, to determine its peak and retention time.

Related Questions

If 10 milliliters of liquid has a mass of 70 grams, what is its density?O 7 g/mL
70 g/mL
0.7 g/mL
700 g/mL

Answers

Answer:

The answer is 7 g/mL

Explanation:

The density of a substance can be found by using the formula

$density = (mass)/(volume) \n$

From the question

mass = 70 g

volume = 10 mL

We have

$density = (70)/(10) \n$

We have the final answer as

7 g/mL

Hope this helps you

Note from the formulas of the reactants that one is an acid and one is a base. The precipitate formed is therefore a salt. What is the balanced formula for this salt?1. OH
2. Ba2SO4
3. BaSO4
4. Ba(SO4)2

Answers

BaSO4 is the answer for this question i did the math

Answer:

3. BaSO4

Explanation:

the math will show you, and to answer your commented question "How does this evidence indicate that the reaction has occurred between ions ?" :

The reaction of the ions can be checked by a number of methods. In a chemical reaction, the ions are in the aqueous solution. This means that they are in solution, dissolved with charge. During the reaction (ionic) there is an attraction between the positive and negative ions. This makes a change in the state of the reactants in the products. In addition, the reaction can result in an immediate observable change such as the formation of a solid or precipitation.

To make a 2.0-mole solution, how many moles of solute must be dissolved in 0.50 liters of solution?0.25 moles solute

0.50 moles solute

1.0 mole solute

2.0 moles solute

Answers

To make a 2.0-molarity solution in 0.50 liters of solution
M = moles of solute / liter solution
2 molarity = moles of solute / 0.5 liters of solution
moles of solute = 1 moles of solute

Answer : The correct option is, 1.0 mole

Explanation : Given,

Molarity of solution = 2.0 mole/L

Volume of solution = 0.50 L

Molarity : It is defined as the number of moles of solute present in one liter of solution.

Formula used :

$Molarity=\frac{\text{Moles of solute}}{\text{Volume of solution}}$

Now put all the given values in the above formula, we get the moles of the solute.

$2.0mole/L=\frac{\text{Moles of solute}}{0.50L}$

$\text{Moles of solute}=1.0mole$

Therefore, the number of moles of solute dissolved in the solution will be, 1.0 mole

What is the [H+] if the pH of asolution is 1.65?
a
[H+] = [ ? ] x 10!?)
Coefficient (green)
Exponent (yellow)
Enter

Answers

Solution:

$[\text{H}^(+)] = 10^{-\text{pH}}$

$[\text{H}^(+)] = 10^(-1.65)$

$\boxed{[\text{H}^(+)] = 2.2 × 10^(-2) \: M}$

#ILoveChemistry

#ILoveYouShaina

A weather balloon of known initial volume is released. The air pressures ar its initial and final altitudes are known. Why can't you find its new volume by using these known values and Boyle's law?

Answers

Answer: you cannot find its new volume by using these known values and Boyle's law because the temperature does not remain constant.

Explanation:

Boyle's law states that the volume of a fixed amount of gas, at a constant temperature, varies inversely with the pressure.

So, it is a condition that the temperature does not change.

For the wheater ballon case, as it travels through the atmosphere, the temperature at different altitudes will be different.

So, you might use other equation of states, such as the combined law, which does deal with changes in the three variables: volume, pressure, and temperature.

The mathematical formulation of Boyle's law is:

pV = constanjt ⇒ p₁ V₁ = p₂ V₂, at constant T.

The mathematical formulation of the combined law of gases is:

pV/T = constant ⇒ p₁ V₁ / T₁ = p₂ V₂ / T₂, for a fixed amount of gas, then it might work for the weather ballon (if you know the initial and end temperatures).

You cannot find the new volume by using initial volume of the weather balloon and air pressure ai its initial and final altitudes and Boyle’s law because the given values are not the same. Boyle’s law holds for the pressure and volume of the GAS at constant temperature. Here you are given the air pressure outside the weather balloon not the inside of the balloon. They have different gases and so it would not apply.

A 10.00 g sample of a compound containing only carbon, hydrogen, and oxygen forms 23.98 g CO2 and 4.91 g H2O upon complete combustion. What is the empirical formula of the compound?

Answers

There are three major steps for finding an empirical formula from a combustion reaction.
1.) Determine the grams of carbon and hydrogen from the given data.

C: 23.98 g x (12.011 g / 44.01 g) = 6.54 g C
H: 4.91 g x (2.0158 g / 18.02 g) = 0.55 g H
Determine the grams of oxygen in the sample by subtracting the mass of the compound given from the total mass solved earlier.
O: 10.0 - (6.54 + 0.55) = 2.91 g O

2) Convert the values in step 1 to moles.

C: 6.54 g / 12.01 g / mol = 0.54 mol
H: 0.55 g / 1.01 g/mol = 0.54 mol
O: 2.91 g / 16.00 g/mol = 0.18 mol

3) Divide each by the lowest value calculated in step 2

C: 0.54 mol / 0.18 mol = 3
H: 0.54 mol / 0.18 mol = 3
O: 0.18 mol / 0.18 mol = 1

Thus, the empirical formula is C3H3O.

Other Questions

If gas particles start colliding with the walls of their metallic container with increase force what is their direct effect

Rusting is the common name for the corrosion of iron or steel. the brown-orange rust commonly seen on iron or steel cars, nails, chains, or posts has the formula fe2o3. what is its iupac name?

Where is copper in the periodic table?

What is made up of biotic and abiotic features