Which of the following can be used to neutralize an ammonia (NH3) solution?

Answers

Answer 1

Answer: It really depends on your options.
Since NH3 solution is a weak base, the option that neutralizes a base is an acid. So find an acid among your options, and here are some examples: HNO3, HCl, etc.

Answer 2

Answer: It would have been much better if you had attached some options to choose. But I think I've got what you mean. I bet that solution is HCl.

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Which statement describes a major drawback of the Bohr model that caused scientists to replace it?a) It worked only for helium and larger atoms. b) It did not identify the distance between an electron and the nucleus. c) It contradicted the Heisenberg uncertainty principle. d) It stated that spectral lines of atoms are similar.
Find the element that makes milk good for your health. Is it a metal, nonmetal or metalloid?

Oxygen, nitrogen, and carbon are all ___________________.

Answers

Organic elements, depends on the context of the question but I suspect that is the answer. The organic elements are H,O,C,N,P,S

What is the Hf for this reaction? 16CO2(g) + 18H2O(g) 2C8H18(l) + 25O2(g)

Answers

To solve this we must be knowing each and every concept related to Enthalpy. Therefore, 10,148KJ/mol is the ΔH for formation for the reaction 16CO $_2$ (g) + 18H $_2$ O(g) $\rightarrow$ 2C $_8$ H $_(18)$ (l) + 25O $_2$ (g)

What is Enthalpy?

Enthalpy term is basically used in thermodynamics to show the overall energy that a matter have. Mathematically, Enthalpy is directly proportional to specific heat capacity of a substances. Specific heat capacity of a substance is the amount of heat required to raise the temperature by one degree Celsius of one gram of a substance.

The balanced equation for the given chemical reaction can be given as

16CO $_2$ (g) + 18H $_2$ O(g) $\rightarrow$ 2C $_8$ H $_(18)$ (l) + 25O $_2$ (g)

ΔH for formation= 10,148KJ/mol

Therefore, 10,148KJ/mol is the ΔH for formation for the reaction 16CO $_2$ (g) + 18H $_2$ O(g) $\rightarrow$ 2C $_8$ H $_(18)$ (l) + 25O $_2$ (g)

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Answer:

10,148

Explanation:

Very Important!! Electron lender or borrower?i need to know if these elements lend or borrow electrons and how many do they lend or borrow.
-sodium
-phosphorus
-potassium
-oxygen
-iodine
-cesium
-bromine
-sulfur
-magnesium
Please answer!! Its really important..

Answers

Answer : Lending makes the element as cation (positively charged species) and borrowing makes the element as anion (negatively charged species).

Usually all the metal species donates the electrons and non-metals accepts (borrows) the electrons.

Sodium (Na) donates 1 electron and becomes $Na^(+)$ .

Phosphorus (P) accepts 3 electrons and becomes an anion of phosphorus $P^(-3)$ .

Potassium (K) donates its one electron and gets converted to $K^(+)$ .

Oxygen (O) accepts 2 electrons and turns as $O^(-2)$ .

Iodine (I) accepts one electron and gets converted into $I^(-)$ .

Cesium (Cs) donates 1 electron and turns to $Cs^(+)$ .

Bromine (Br) accepts 1 electron and turns as $Br^(-)$ .

Sulfur (S) accepts 2 electrons and becomes $S^(-2)$ .

Magnesium (Mg) donates its 2 electrons and gets converted as $Mn^(+2)$ .

Sodium lends 1 electron.
Phosphorus borrows 3 electrons.
Potassium lends one electron.
Oxygen borrows 2 electrons.
Iodine borrows one electron.
Cesium lends 1 electron.
Bromine borrows 1 electron.
Sulfur borrows 2 electrons.
And magnesium lends 2 electrons.

Which form of bonding holds cesium chloride (CsCl) together?a. hydrogen bonding
b. covalent bonding
c. metallic bonding
d. ionic bonding

Answers

The correct answer is D. Cesium chloride is held together by ionic bonding. This substance is a salt like sodium chloride. It is also soluble in water. When it dissociates, it forms into cesium ions and chloride ions.

Answer:

The correct answer is D.

Explanation:

Cesium chloride is held together by ionic bonding. This substance is a salt like sodium chloride. It is also soluble in water. When it dissociates, it forms into cesium ions and chloride ions.

A 10.0 mL syringe contains 0.10 g of nitrogen gas at 0.0 degrees Celsius. What is the pressure inside the syringe?

Answers

Since the sample inside the syringe is a gas, we assume that it is an ideal gas that is we use the expression PV = nRT. We can easily calculate the pressure as follows:

n = m /MM = 0.10 / 28 = 0.0036 mol

P = nRT / V = 0.0036(0.08206)(273.15) / 0.010
P = 8 atm

Answer:

The correct answer is 8.0 atm.

Hydrocarbons are organic compounds which contain: H H and C only H and C C and H2O

Answers

The answer would be H and C only. Hydrocarbons are organic compounds consisting entirely of carbon and hydrogen. They are the simplest form of organic compounds. They are joined together by covalent bonds. They can be straight-chain, cyclic or branched chain.

Hydrocarbons are organic compounds which contain hydrogen, H and carbon, Conly (option B)

What is hydrocarbon?

Hydrocarbons special class of organic compounds that contains only carbon (C) and hydrogen (H).

Hydrocarbons are classified into:

Saturated hydrocarbons i.e having only single bonds in its chain
Unsaturated hydrocarbons i.e having double or triple bond

Generally, hydrocarbons are group into different homologous series. Some of which includes:

Alkanes i.e single bond
Alkenes i.e double bond
Alkynes i.e tripple bond

All of the above have only carbon and hydrogen in their structural formula.

Thus, with the above information, we can conclude that hydrocarbons contains H and C only (option B)

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Complete question:

Hydrocarbons are organic compounds which contain

a. H-H

b. H and C only

c. H, C and H₂O

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