CHEMISTRY HIGH SCHOOL

One phosphorus, three chlorine, one oxygen

Answers

Answer 1
Answer: Phosphoryl chloride :

POCl3

hope this helps!.

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Which one of the following choices is a simple sugar? A. Glucose B. Chocolate C. Lactase D. Orange juice
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A 50.0-gram block of copper at 10.0°C is carefully lowered into 100.0 grams of water at 90.0°C in an insulated container. Which statement describes the transfer of heat in this system?(1) The water loses heat to the block until both are at 10.0°C. (2) The block gains heat from the water until both are at 90.0°C. (3) The water loses heat and the block gains heat until both are at the same temperature that is between 10.0°C and 90.0°C. (4) The water gains heat and the block loses heat until both are at the same temperature that is between 10.0°C and 90.0°C.
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How many moles of copper are equivalent to 3.44 × 1023 atoms of copper?

Which event best helped Becquerel determine uraniun radiates rays ?A)a cloudy day
B)a substance glowing in the dark
C)wrapping of ore in paper
D)exposure of a photographic plate

Answers

Exposure of a photographic plate was the event that best helped Becquerel to determine uranium radiates rays. The correct option in regards to the given question is option "D". Henri Becquerel was a French physicist and he was born on 15th December 1852 and died on 25th August 1908. He was the scientist that discovered radioactivity. In the year 1903, he was awarded with the Nobel Prize for physics for the ground breaking work he did. In the year 1896, Becquerel published seven important papers on his work on radioactivity. This was the work that made him famous around the globe.

Like he said the answer is "D"

Is there a relationship between an elements atomic number and its first ionization energy (IE)?

Answers

yes, well kind of, as you travel across the a period  the first ionization energy increases). as you travel down a column the ionization energy decreases.  

20 g of sugar is stirred into a beaker containing 100 g of water. After the sugar has completely dissolved, the solution is put on a scale. What is the mass of the solution?

Answers

The mass of the solution of sugar and water is 120 grams.

What is mass?

Mass is the quantity of matter of a physical body.

The mass of the sugar is given is 20g

The mass of the water is 100 g.

100 + 20 = 120 gram

Thus, the mass of the solution of sugar and water is 120 grams.

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The mass of the solution should be 120g since 20g of sugar were added to 100g and 100+20=120.
I hope this helps.  Let me know in the comments if anything is unclear.  

The chemical bonding in sodium phosphate, Na3PO4, is classified as:

Answers

Between these, the bond is called an ionic bond. An ionic bond is when the electrons are transferred between the atoms, giving them a charge. 

Final answer:

The type of chemical bonding in sodium phosphate (Na3PO4) is ionic bonding. This is due to the transfer of electrons from sodium atoms to a phosphate group, forming ions which then attract one another to create a balanced, electrically neutral compound.

Explanation:

The chemical bonding in sodium phosphate (Na3PO4) is classified as ionic bonding. Ionic bonding involves the transfer of electrons from one atom to another, resulting in the formation of ions. This occurs between atoms of different electronegativities, typically a metal and a non-metal. Atoms lose or gain electrons to attain a stable, full outer electron shell.

In sodium phosphate, three sodium (Na) atoms each donate an electron to become positively charged ions (cations). The phosphate (PO4) group accepts these electrons to become a negatively charged ion (anion). The electrostatic attraction between the positive sodium ions and the negative phosphate ion forms the ionic bond. These discrete units assemble in a three-dimensional lattice structure in a way that ensures the overall compound is electrically neutral.

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Which of the following is TRUE about ideal gas particles?A.They move in random directions.
B.They are very large.
C.They have high intermolecular forces.
D.They have inelastic collisions.
E.They always move in straight lines.

Answers

Answer:

The answer is A.

Explanation:

Gasparticlesdonothaveafixedpositionorvolumesotheymoveinrandomspeedanddirections.

(CorrectmeifIamwrong)

Are hydrogen bonds formed between all molecules?1.) No because hydrogen can only form these bonds with oxygen atoms.
2.) No because hydrogen can only form these bonds with highly electronegative atoms.
3.) Yes because hydrogen can easily form bonds with atoms that have a neutral charge.
4.) Yes because hydrogen can form these bonds with weakly electronegative atoms.

Answers

The correct statement for the given problem is \boxed{{\text{2)}}\;{\text{No because hydrogen can only form these bonds with highly electronegative atoms}}}

Further Explanation:

Intermolecular forces:

The forces that exist between the molecules are known as intermolecular forces (IMF). IMF includes both attractive as well as repulsive forces. They are electrostatic in nature and determine the bulk properties of the substances like melting and boiling points. Molecules are held in any substance due to these forces.

The various types of intermolecular forces are as follows:

1. Hydrogen bonding:

It is an attractive force that exists between hydrogen and more electronegative elements like N, O, F. It can either be intermolecular or intramolecular. Intermolecular hydrogen bonding is the one that occurs between different molecules. For example, the bond between HF and {{\text{H}}_{\text{2}}}{\text{O}}  is an intermolecular hydrogen bond. Intramolecular hydrogen bonding occurs between various parts of the same molecule. Ortho-nitro phenol and salicylaldehyde show this type of bonding.

2. Ion-dipole forces:

It is an attractive force that occurs between an ion and a molecule consisting of a dipole. The force between {\text{N}}{{\text{a}}^ + } and water molecule is an example of this force.

3. Ion-induced dipole forces:

It is an attractive force that occurs between an ion and a nonpolar molecule. It induces a dipole in the molecule, resulting in ion-induced dipole force. The bond between {\text{F}}{{\text{e}}^(2 + )} and oxygen molecule is an example of such kind of bond.

4. Dispersion forces:

Also known as London dispersion forces, van der Waals forces, instantaneous dipole-induced dipole forces. These forces exist between atoms and molecules. The forces that occur in {{\text{F}}_2}  molecule is a dispersion force.

(1) Hydrogen bond is the one formed between the highly electronegative atom and hydrogen. Although oxygen is a highly electronegative element, it also forms hydrogen bonds with hydrogen. But it there are also more electronegative elements, other than O that can form hydrogen bonds with hydrogen. So this statement (1) is incorrect.

(2) As is clear from the definition of hydrogen bonds, it is formed between highly electronegative elements (like F, O, and N) and hydrogen. So this statement (2) is correct.

(3) Hydrogen bonding is formed as the result of interaction between and an element that can induce a dipole in hydrogen. But neutral atom cannot induce any charge on hydrogen atom. So this statement (3) is incorrect.

(4) Hydrogen can form bonds with high electronegative elements and not with the weak electronegative elements. So the given statement (4) is incorrect.

Learn more:

1. Identification of ionic bonding: brainly.com/question/1603987

2. What type of bond exists between phosphorus and chlorine? brainly.com/question/81715

Answer details:

Grade: High School

Subject: Chemistry

Chapter: Ionic and covalent compounds

Keywords: bond, oxygen, F, N, O, hydrogen bond, hydrogen, highly electronegative element, intermolecular forces, ion-dipole, ion-induced dipole, dispersion forces, attractive, repulsive, correct, incorrect, weakly electronegative.

No, hydrogen can only form these bonds with highly electronegative atoms. Therefore, the correct option is option 2.

When an electronegative atom is attracted to another electronegative atom nearby, a hydrogen atom that is covalently bound to a highly electronegative atom forms a hydrogen bond. This attraction results from variations in electronegativity values, which unbalances the distribution of electrons. While the electronegative atom acquires a partial negative charge, the electron-deficient hydrogen becomes weakly positively charged. The electromagnetic attraction between these partially positive and partially negative ions is known as a hydrogen bond, and it is quite powerful.

Therefore, the correct option is option 2.

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