Five liters of gas at STP have a mass of 12.5 g. What is the molecular mass of the gas? a. 12.5 g/mol
b. 25.0 g/mol
c. 47.5 g/mol
d. 56.0 g/mol
e. 125 g/mol

Answers

Answer 1

Answer: You have 12.5 grams. And 5 liters of some random gas.

Step 1: You must find the mol amount of that 12.5g mass.

12.5 / 5 = 2.5 mol

Step 2: Now find the molecular mass of that gas "at STP" (STP- is 22.4 L)

2.5 x 22.4 = 56 g/mol

Good Luck on Chemistry SAT, cause I know exactly where you got this question from.

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Add 92.2 km to 9426 m and report the answer inkm.
92.2 km + 9426 m =
km
Help me plz

Answers

Answer:101.6

Explanation:

to convert m into km we have to divide it by 1000.so,

9426/1000=9.426km

92.2km+9.426km=101.626km.

At standard pressure, the total amount of heat required to completely vaporize a 100. gram sample of water at its boiling point is

Answers

Answer:

The heat of vaporization relates the amount of heat required to transform a certain phase of a certain amount of substance from liquid to gas. The heat of vaporization of substances can be expressed in terms of joules per gram or joules per mole.

ExplanaDetermine the total amount of heat, q, that is required to evaporate the given amount of water at its boiling point. For this problem, we simply apply the equation,q

where m is the mass and

is the enthalpy of vaporization of water. We use the following values:

100

2.26

We proceed with the solution.

(

100

)

(

2.26

)

226 k

j tion:

A metal having a mass of 44 grams is dropped in 118.2 cm3of water and sinks to the bottom. The volume
of the water and object is 124.3 cm3
. What is the density of the metal?

Answers

The volume of the lump that was dropped into the water is

(124.3 - 118.2) = 6.1 cm³

The density of the lump is (mass)/(volume) = 44 / 6.1 = 7.21 gm per cm³.

Which of the following is NOT a major characteristic used to identify minerals? a. hardness c. density b. magnetism d. luster

Answers

Magnetism is a force which attract or repel a magnetic object like iron.
Magnetism is not a major characteristic used to identify minerals, because, every mineral do not have magnetic properties in it. Only few minerals like Iron-nickel have it and thus, it is not possible to identify a mineral using magnetism.

The answer would be B.)Magnetism

The reaction Ba(NO3)2(aq) + Na2SO4(aq) → 2NaNO3(aq) + BaSO4(s) goes to completion because a

Answers

Answer:

This reaction is completed by a double displacement

A double displacement occurs when two different salts are mixed in an aqueous state, since when they dissolve a salt their ions are dissociated and when mixed with another salt in an aqueous state they combine and form two new compounds

Double displacement reactions

$AB + CD\longrightarrow AC+ BD$

$Ba(NO_3)_2+Na_2SO_4 \longrightarrow 2NaNO_3 +BaSO_4$

Ba(NO₃)₂ + Na₂SO₄ → 2NaNO₃ + BaSO₄

The reaction goes to completion because it has the same amount of elements in the reactants and products.

Consider this second-order reaction: (A B C and rate = k[A]2). What will happen to the reaction rate if the concentration of A is doubled?

Answers

Answer:

The reaction rate will be multiplied by four.

Explanation:

The reaction rate is the measure of how fast a reaction is happening, and it can be calculated by how fast the reactants are disappearing, or how fast the products are being formed.

For a generic reaction:

A → B + C

The rate (r) is:

-r = k*[A]ⁿ

The minus signal refers to the disappearing of the reactant, k is the velocity constant of the reaction, and n is the reaction order. So, for a second-order reaction:

-r = k*[A]²

If the concentration of A is doubled: [A]' = 2[A]

-r' = k*(2[A])²

-r' = k*4*[A]

-r' = 4*k*[A]

-r' = 4*(-r)

It will increase by a factor of four.

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