Which of the following is another term for glucose? 1) Dextrose, 2) Sucrose, 3) Carbohydrate, 4) Table 5) Sugar.

Answers

Answer 1

Answer: Another term for glucose is "sugar." Glucose is a type of sugar that circulates in the bloodstream and serves as a primary source of energy for cells in the body.

Related Questions

Examples of chemical changes in nature
How many moles of NH3 can be produced from 13.5mol of H2 and excess N2??
Based upon the ion charge of the following polyatomic ions, predict the formula for the following compounds. sulfate = SO4 -2 phosphate = PO4 -3 hydroxide = OH- sodium sulfateNaSo4Na2SO4Na(SO4)2NaSO8
Enter the symbol of a sodium ion, Na+, followed by the formula of a sulfate ion, SO42−. Separate the ions with a comma only—spaces are not allowed.
If you begin with 1250 grams of N2 and 225 grams of H2 in the reaction that forms ammonia gas (NH3), how much ammonia will be formed? What is the limiting reagent? How much of the reagent is left when the maximum amount of ammonia is formed?(AP Chemistry summer homework packet)Please help! Thanks. :)

Neptunium's only naturally occurring isotope, 23793np, decays by emitting one alpha particle, one beta particle, and one gamma ray. What is the new atom formed from this decay?

Answers

The given isotope of Neptunium is $^(237) _(93) Np$

Alpha decay of an isotope results in daughter nuclide with mass number less by 4 units and atomic number less by 2 units than the parent isotope.

Alpha decay of Neptunium-237 can be represented as:

$^(237) _(93) Np-->^(233)_(91) Pa+^(4) _(2) He$

Beta decay of the above formed protactinium nuclide can be represented as:

$^(233)_(91)Pa-->^(233) _(92) U+^(0)_(-1)e$

Gamma decay releases only energy in the form of gamma rays, the nuclide remains the same.

$^(233)_(92)U-->^(233)_(92)U+$ γ

The new atom formed after the given decays is $^(233)_(92)U$

Which species represents a chemical compound?
(1) N2 (3) Na
(2) NH4+ (4) NaHCO3

Answers

The species that significantly represents a chemical compound is known as NaHCO3. This is also known as Sodium bicarbonate or sodium hydrogen carbonate. Thus, the correct option for this question is D.

What is a Chemical compound?

A chemical compound may be defined as a type of chemical substance that is mainly composed of many similar molecules that contain atoms of more than one chemical element. These atoms are typically held together by chemical bonds.

According to the context of this question, Na is sodium and N2 is dinitrogen or simply nitrogen gas. Both these chemical constituents are classified as the type of chemical element. While NH4+ is a polyatomic ion which is known as an ammonium ion.

So, NaHCO3 is classified into the category of a chemical compound. This is because it mainly consists of sodium, hydrogen, carbon, and oxygen.

Therefore, the species that significantly represents a chemical compound is known as NaHCO3. This is also known as Sodium bicarbonate or sodium hydrogen carbonate. Thus, the correct option for this question is D.

To learn more about Sodium bicarbonate, refer to the link:

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Answer:

4.) NaHCO3

Explanation:

In a compound, two or more elements are chemically combined. NaHCO3 is a compound containing the elements sodium (Na), hydrogen (H), carbon (C), and oxygen (O). N2 and Na are elements. NH4+ is the polyatomic ion ammonium.Zoom

Which compound becomes less soluble in water as the temperature of the solution is increased?(1) HCl (2) KCl (3) NaCl (4) NH4Cl

Answers

Answer: Option (1) is the correct answer.

Explanation:

Compounds in which atoms transfer electrons result in the formation of ionic bond. Whereas when atoms in a compound share electrons then they result in the formation of covalent compounds.

Also, it is known that like dissolves like. Hence, water being an ionic compound itself dissolves other ionic compounds.

Thus, out of the given options HCl is a covalent compound, therefore, HCl is the compound that becomes less soluble in water as the temperature of the solution is increased.

HCI are less soluble in water as the temperature of the solution is increased.

Which of the following is a single replacement reaction?2Al + 6H2O yields 2Al(OH)3 + 3H2
AgNO3 + NaCl yields AgCl + NaNO3
Fe2O3 + 3H2O yields 2Fe(OH)3
CH4 + 2O2 yields CO2 + 2H2O

Answers

2Al +H2O yield 2Al(OH)3 + 3H2 (answer A)

is an example of single replacement reaction

This is because single replacement reaction involve an element reacting with a compound and take place of another element in that compound. Al an element react with to yield Al(OH)3 and H2. Al take place of H + therefore the reaction above is example of single replacement.

The answer is the first one. 2Al+6H2O yields 2Al(OH)3H2

Which characteristics both generally decrease when the elements in Period 3 on the Periodic Table are considered in order from left to right?(1) nonmetallic properties and atomic radius
(2) nonmetallic properties and ionization energy
(3) metallic properties and atomic radius
(4) metallic properties and ionization energy

Answers

Answer: 3) metallic properties and atomic radius

Explanation: reference table s trust me lol

Final answer:

The metallic properties and atomic radius generally decrease when the elements in Period 3 on the Periodic Table are considered in order from left to right.

Explanation:

The correct option is (3) metallic properties and atomic radius.

As we move across Period 3 on the periodic table from left to right, the elements change from metals to nonmetals. Metallic properties generally decrease across the period because the electrons are added to the same energy level, resulting in increasing effective nuclear charge and stronger attractions between the nucleus and the valence electrons.

At the same time, the atomic radius generally decreases across the period due to the increasing effective nuclear charge, which pulls the electrons closer to the nucleus.

Learn more about Period 3, Periodic Table, metallic properties, atomic radius here:

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The molar mass of carbon dioxide (CO2) is 44.01 g/mol. The molar mass of water (H2O) is 18.01 g/mol. A reaction uses 528 g of CO2. How many moles of water are used in this reaction?

Answers

The reaction that results from this is:

H2O + CO2 --> H2CO3

Stoichiometric ratio between water and CO2 is 1:1. So we can say that for every Mole of CO2, we need 1 Mole of water to produce 1 Mole of H2CO3. Thus as n=m/M we can find n = 528/44.01 = 11.997 ~ 12Mol.

therefore, we need 12 moles of water.

Answer:

First one, 12.0.

Explanation:

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A hydrocarbon of unknown structure has the formula C8H8. On catalytic hydrogenation over the Lindlar catalyst, 2 equivalents of hydrogen are absorbed. On hydrogenation over a palladium catalyst, 5 equivalents of H2 are absorbed. a) The degrees of unsaturation in the unknown is(are) ?b) The number of triple bonds is ?c) The number of double bonds is ?d) The number of rings is ?

Chemical changes do not form new compounds do not decompose the old compounds form new compounds change the appearance of the old compounds