What are the 3 main types of mixtures

Answers

Answer 1

Answer:

Answer: Suspension mixture, colloidal mixture, and solution mixture

Explanation: These are the three types of mixtures, hopefully this helps.

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Which Pair Of Compounds Are Isomers?1) CH3CH2CH3 and CH2CHCH3 2) CH2CH2 and CH3COCH3 3) Ch3OCH3 and CH3COCH3 4) CH3COCH3 and CH3CH2CHO I'd like to know the steps to answering this question. Thanks!

A catalyst works by(1) increasing the potential energy of the reactants(2) increasing the energy released during a reaction(3) decreasing the potential energy of the products(4) decreasing the activation energy required for a reaction

Answers

Answer: Option (4) is the correct answer.

Explanation:

Activation energy is the minimum amount of energy required by reactant molecules to undergo a chemical reaction.

Whereas a catalyst is defined as the substance that helps in increasing the rate of reaction by decreasing the activation energy without itself getting consumed in the reaction.

When a catalyst decreases the activation energy then molecules with lesser energy become able to participate in the reaction and thus, products are obtained at a faster rate. Hence, a catalyst increases the rate of a reaction.

Thus, we can conclude that a catalyst works by decreasing the activation energy required for a reaction.

The catalyst (4) decreases the activation energy required for a reaction, by holding reactants in place

What is the difference in a transverse and a longitudinal wave?Group of answer choices

Transverse waves are bigger than longitudinal waves

A transverse wave has crests and troughs and a longitudinal has compressions and rarefactions.

Transverse waves are sound waves and longitudinal waves are light waves.

Answers

Answer:

A transverse wave has crests and troughs and a longitudinal has compressions and rarefactions.

If the theoretical yeild for a reaction is 156 grams and you actually made 122 grams of the product, what is your percentage yeild

Answers

The theoretical yield is the amount of product formed from the limiting reactant available. The actual yield is the amount of product formed after the reaction proceeds. The percent yield is calculated as:

Percent Yield = (actual yield / theoretical yield) x 100%
Percent Yield = (122 g / 156 g) x 100%
Percent Yield = 78.2%

Which is an example of a heterogeneous catalyst?amylase
catalytic converter
food preservatives
amino acids

Answers

Answer:

catalytic converter

Explanation:

A heterogeneous catalyst is one that has a phase different from the reactant molecules. A catalyst speeds up a chemical reaction by lowering the activation energy required to start the reaction. But a catalyst does not undergo any change in the chemical process. Catalysts in a catalytic converter are metallic palladium or platinum that react with the hydrocarbons and carbon monoxide from the exhausts of a car to form carbon dioxide and water.

Final answer:

A heterogeneous catalyst is a catalyst that works in a different phase than the reactants. An example of this is a catalytic converter, used in cars to convert harmful emissions into less harmful substances.

Explanation:

In chemistry, a heterogeneous catalyst is a catalyst that exists in a different phase from the reactants. The primary purpose of a heterogeneous catalyst is to accelerate a certain chemical reaction without being consumed in the process. A clear example of a heterogeneous catalyst is a catalytic converter used in vehicles. The function of a catalytic converter is to convert harmful engine emissions into less harmful substances through catalysed chemical reactions. It includes metals like Platinum, Palladium, and Rhodium, which are what actually does the catalysis.

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__CH4 + __S8 ----> __CS2 + __H2SBalance this equation and calculate the mol CS2 produced when 1.50 mol S8 is used.

Answers

The new balanced equation would be:
2 CH4 + 1 S8 ----> 2 CS2 + 4 H2S

1.50 mol S8 x 2 mol CS2 = 3 mol CS2
1 1 mol S8

Final answer:

The balanced chemical equation is CH4 + 4S8 --> CS2 + 4H2S. The moles of CS2 produced from 1.50 mol S8 will be 1.50 mol.

Explanation:

To balance the chemical equation CH4 + S8 --> CS2 + H2S, we'll start by balancing the sulfur atoms. The balanced equation becomes: CH4 + 4S8 --> CS2 + 4H2S. Now, count the carbon and the hydrogen atoms on both sides. These are balanced successfully, and hence the overall equation is balanced.

Now, let us calculate the moles of CS2 produced from 1.50 mol S8. Using stoichiometry, a ratio derived from the balanced equation, we find that 1 mol of S8 produces 1 mol of CS2. So, 1.50 mol S8 will produce 1.50 mol CS2.

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In atomic emissions spectroscopy, the atom(s) absorb energy, become excited, and release energy in what form?

Answers

In atomic emission spectroscopy, the atoms absorb energy, become excited, and release energy in the form of light.

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