The law of conservation of mass states that mass is neither created nor destroyed during a chemical reaction. This can be gleaned from the third postulate in Dalton's series. Magnesium oxide decomposes into magnesium and oxygen. If 16.12 g of magnesium oxide decomposes to form 9.72 g of magnesium, what mass of oxygen gas is also released in the reaction?

Answers

Answer 1

Answer:

Answer : The total mass of oxygen gas released in the reaction will be, 12.8 grams

Explanation :

Law of conservation of mass : It states that mass can neither be created nor be destroyed but it can only be transformed from one form to another form.

This also means that total mass on the reactant side must be equal to the total mass on the product side.

The balanced chemical reaction will be,

$2MgO\rightarrow 2Mg+O_2$

According to the law of conservation of mass,

Total mass of reactant side = Total mass of product side

Total mass of $2MgO$ = Total mass of $2Mg+O_2$

or,

Total mass of $2MgO$ = Mass of $2Mg$ + Mass of $O_2$

As we are given :

Total mass of $MgO$ = 16.12 grams

The mass of $Mg$ = 9.72 grams

So,

Total mass of $2MgO$ = Mass of $2Mg$ + Mass of $O_2$

$2* 16.12g=2* 9.72g+\text{Mass of }O_2$

$\text{Mass of }O_2=32.24g-19.44g=12.8g$

Therefore, the total mass of oxygen gas released in the reaction will be, 12.8 grams

Answer 2

Answer:

Final answer:

The law of conservation of mass states that the total mass remains constant before and after a chemical reaction. In the decomposition of magnesium oxide into magnesium and oxygen, the mass of oxygen gas released can be found by subtracting the mass of the substance after the reaction (magnesium) from the mass before the reaction (magnesium oxide), resulting in 6.40 g of oxygen gas.

Explanation:

The question pertains to the law of conservation of mass, which states that mass is neither created nor destroyed. It is also linked to the third postulate in Dalton's series. In the case of magnesium oxide decomposing into magnesium and oxygen, you can use this law to solve the problem.

If 16.12 g of magnesium oxide decomposes to 9.72 g of magnesium, this means that the rest of the mass must be the oxygen gas released. The mass of the magnesium oxide (16.12 g) minus the mass of the magnesium (9.72 g) gives the mass of the oxygen gas. Therefore, the mass of oxygen gas released is 16.12 g - 9.72 g = 6.40 g.

Learn more about Law of Conservation of Mass here:

brainly.com/question/9391940

#SPJ12

Related Questions

Write a balanced chemical equation to show the reaction of naoh with the diprotic acid h2so4.
Define electron affinity
What is the total number of joules released when a 5.00-gram sample of water changes from liquid to solid at 0°C?(1) 334 J (3) 2260 J (2) 1670 J (4) 11 300 J
Water, H2O, frequently forms Hydrogen Bonds with other non metal atoms. Why does water do this? A: the Oxygen has a partial negative charge which attracts atoms and molecules that have a position or partial positive charge B: The Hydrogen has a partial negative charge which attracts atoms and molecules that have a positive or partial positive charge C: Because Oxygen is extremely electronegative it attracts atoms and molecules with a negative or partial negative charge D: Because Hydrogen has a very low electronegative rating it attracts atoms and molecules with a positive or partial positive charge
When are atoms considered stable?when they have satisfied the law of conservation of mass naturally or through bonding to obtainfull valence shellswhen they have satisfied the octet rule naturally or through bonding to obtain full valence shellswhen their valence electrons have "fallen" back to ground state through bonding

True or false: (a) For molecules with similar molecular weights, the dispersion forces become stronger as the molecules become more polarizable. (b) For the noble gases the dispersion forces decrease while the boiling points increase as you go down the column in the periodic table. (c) In terms of the total attractive forces for a given substance, dipole–dipole interactions, when present, are always greater than dispersion forces. (d) All other factors being the same, dispersion forces between linear molecules are greater than those between molecules whose shapes are nearly spherical.

Answers

The dispersion force and the dipole force has been the attractive forces that result in the formation of bond within the molecules and result in the change in the properties of the compounds.

The dipole force is a strong force and results in a higher boiling point.

The statements regarding the forces are:

(a) For molecules with similar molecular weights, the dispersion forces become stronger as the molecules become more polarizable.

The statement is true.

(b) For the noble gases the dispersion forces decrease while the boiling points increase as you go down the column in the periodic table.

The statement is true.

(c) In terms of the total attractive forces for a given substance, dipole-dipole interactions, when present, are always greater than dispersion forces.

The statement is false.

(d) All other factors being the same, dispersion forces between linear molecules are greater than those between molecules whose shapes are nearly spherical.

The statement is true.

For more information about the dispersion force, refer to the link:

brainly.com/question/20514601

Answer:

A ,B- false

C,D- true

Explanation:

Dipole forces always lead to stronger attraction and boiling points than dispersion forces. When linear molecules are involved, they often posses greater dipole forces and higher boiling points. Linear alkanes posses higher boiling points than branched alkanes.

How does heat differ from temperature

Answers

Heat is the total energy of molecular motion in a substance while temperature is a measure of the average energy of molecular motion in a substance. Heat energy depends on the speed of the particles, the number of particles (the size or mass), and the type of particles in an object.

heat makes the tempruture rise

What is sodium bicarbonate an example of? a buffer an acid a liquid a base

Answers

Answer:

base

Explanation:

carbonic acid - H2CO3 - is a weak acid. Therefore, HCO3 itself is its conjugate base. The Na(sodium) ion is neutral.

This means that NaHCO3 is a base. (a weak one)

The euglena's red eyespot is used for _____.photosynthesis
binary fission
detection of light
detection of danger

Answers

The euglena's red eyespot is used for detection of light.

Answer:

binary fission

Explanation:

What is the mass of 6.3 moles of Sulfur

Answers

Answer:

201.6 grams is the mass of 6.3 moles of sulfur.

Explanation:

$Moles(n) =\frac{\text{Mass of the compound}(m)}{\text{molar mass of the compound}(M)}$

Moles of sulfur ,n= 6.3 moles

Atomic mass of sulfur = M = 32 g/mol

Mass of the sulfur = m = ?

$m=M* n$

$=6.3 mol* 32 g/mol=201.6 g$

201.6 grams is the mass of 6.3 moles of sulfur.

The molar mass of sulfur is 32 g/mol.
The mass of 6.3 moles of Sulfur is 32×6.3=201.6 grams

♡♡Hope I helped!!! :)♡♡

What are human made of

Answers

Dust, Water, Ogyen, Nitrogen.

A living person is made up of the following bodies.The gross bodyThe vital body The mental body The intellect or causal body The subtle ego or supracausal bodyThe soul or the God Principle in each of us

Other Questions

How many grams of oxygen can be created when you heat 200g of sodium chlorate

Which of the following is NOT a produce of the neutralization reaction between hydrochloric acid and sodium carbonate?A. Sodium chloride B. Carbon dioxide C. Water D. Sodium hydroxide

What is the ph at the equivalence point when 0.10 m hno3 is used to titrate a volume of solution containing 0.30 g of koh?

A substance has a mass of 360 g and a volume of 7.5 cm3. What is its density?a. 2700 g/cm3 c. 480 g/cm3 b. 270 g/cm3 d. 48 g/cm3