CHEMISTRY HIGH SCHOOL

Given the balanced equation:2KClO3==> 2KCl + 3O2
Which type of reaction is represented by this equation?
(1) synthesis
(2) decomposition
(3) single replacement
(4) double replacement

Answers

Answer 1
Answer:

Answer: Option (2) is the correct answer.

Explanation:

An equation in which the the number of reactants equal the number of products is known as a balanced equation.

Whereas a reaction in which a compound dissociates into two or more compounds is known as a decomposition reaction.

Therefore, the given reaction 2KClO_3 \rightarrow 2KCl + 3O_2 represents that KClO_(3) decomposes into KCl and O_(2).

Hence, it is a decomposition reaction.
Answer 2
Answer:

Decomposition reaction is the type of reaction that is represented by the given equation. Therefore, the correct option is option 2.

A chemical reaction called a decomposition reaction, often referred to as an analysis or dissociation, occurs when a compound disintegrates into more basic elements. A single compound is transformed into two or more products in this reaction, which may be elements or other compounds.

Decomposition reactions are typically induced by heat, light, electricity, or the presence of a catalyst. These reactions occur because the reactant compound is unstable under certain conditions, leading to its breakdown into more stable products. Therefore, \rm 2KClO_3 \rightarrow 2KCl + 3O_2 is a decomposition reaction.

Therefore, the correct option is option 2.

To know more about Decomposition reaction, here:

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Why does air with higher amounts of water vapor have a lighter density?

Answers

Answer:

moist air is less dense than dry air because water has a lower molecular weight than nitrogen and oxygen

Answer:

Water vapor is a relatively light gas when compared to diatomic Oxygen and diatomic Nitrogen. Thus, when water vapor increases, the amount of Oxygen and Nitrogen decrease per unit volume and thus density decreases because mass is decreasing.

If the following elements were to combine with each other, choose which demonstrate the Law of Multiple Proportion. Select all that apply. Z:X = 7:1 A:Z = 2.5:1 A:Z = 2.2:1 Y:X = 11:1

Answers

Answer is: Z:X = 7:1 and Y:X = 11:1.

Law of multiple proportions or Dalton's Law said that the ratios of the masses of the second element which combine with a fixed mass of the first element will be ratios of small whole numbers. 
In this example ratios are whole numbers, A:Z = 2.5 : 1 and A:Z = 2.2 : 1 are not whole number ratios.

Answer:

7.1 and 11.1

Explanation:

1 point14. Which factor is not needed hen calculating the velocity of a satellite
orbiting a planet?
the mass of the satellite
the orbital radius of the satellite
the mass of the planet
the universal gravitational constant
Pls help I will give extra points

Answers

The mass of the satellite is not required when calculating the velocity of a satellite  orbiting a planet.

Given that the centripetal force on the satellite is;

F = mv^2/r

Where;

F = centripetal force that keeps the satellite in its orbit

m = mass of the satellite

r = radius of the satellite

Since the force of gravity and the centripetal force both act on the satellite and they are exactly balanced;

F = GMm/r^2

Where;

G = gravitational constant

M = mass of the planet

m = mass of the satellite

r = radius of the satellite

Hence;

F = GMm/r^2 = mv^2/r

GMm/r^2 = mv^2/r

v = √GM/r

Thus, the mass of the satellite is not required when calculating the velocity of a satellite  orbiting a planet.

Learn more: brainly.com/question/21454806

Answer:

i. the mass of the satellite will not be required in this calculation

Explanation:

When a satellite is orbiting a planet, it experiences two forces. The centripetal force and the gravitational force that the planet exerts on the satellite. In order for the satellite to keep in orbit, the centripetal force and the gravitational force must be equal.

The expression for the centripetal force is:

F_c = (m_s)v² / R

where

m_s is the mass of the satellite

R is the radius of the satellite's orbit

v is the velocity that the satellite travels with around the planet

The expression for the Gravitational force is:

F_g = (G M_p m_s) / R²

where

G is the universal gravitational constant

M_p is the mass of the planet

m_s is the mass of the satellite

R is the radius of the satellite's orbit

Thus, equating the two forces together, we get:

(G M_p m_s) / R² = (m_s)v² / R

We can cancel out m_s since it is a common factor on both sides.

Thus,

(G M_p) / R² = v² / R ⇒ M_p = v²R / G

Therefore, the mass of the satellite is not required to calculate the mass of the planet.

Explanation:

Hope this helps:)

While out on a hike, you find an unknown mineral. how would test the mineral to find out what it is?

Answers

You can find out what mineral it is when you bring it with you after you hike. You can bring it to a laboratory that specializes on mineral rocks for testing. They know what they should do to find out what it is. Hope this helps. Have a nice day. 

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Answers

Gases are easily compressible

The answer would be gas.

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Can anyone explain this one?

Answers

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