How many covalent bonds does nitrogen form if each of its unpaired electrons participate in one bond?
Answers
Nitrogen could form 3 covalent bonds if each of its unpaired electrons participates in one bond.
Nitrogen atom forms 3 bonds based on octet rule, because it has 5 valence electrons. That means it needs 3 bonds or three more electrons.
Further Explanation;Chemical bond A bond is a type of force that is formed between atoms of different through the sharing or transfer of electrons.Octet ruleAccording to the octet rule for an atom to be stable it must have maximum number of electrons in its outermost energy level. Therefore an atom with four electrons requires four more electrons to attain stability.Types of chemical bonds.Covalent bond This is a type of bond that is formed between non-metal atoms. It is formed as a result of sharing electrons between non-metal atoms involved.When atoms involved contribute equal number of electrons to the bond formation, the type of bond is known as covalent bondA covalent bond may be a dative covalent bond, when the shared electrons come from one atom.Ionic bond This is a type of bond that occurs between metal ions and non-metal ions. Ionic bond occurs as a result of transfer of electrons from one metal atom to another non-metal atom.After the transfer of electrons, metal atom loses electron to form a cation while the non-metal atom gains electrons to form an anion.Other types of chemical bonds include;Hydrogen bondsMetallic bondsDipole-dipole interactions, etc.Keywords: Chemical bond, covalent bond, atom
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Subject: Chemistry
Topic: structure and bonding
Sub-topic: Covalent bond
[tex]\boxed{{\text{3}}\;{\text{covalent bonds}}}[/tex] are formed by nitrogen if each of its unpaired electrons participates in one bond.
Further Explanation:
The bond that is formed by the mutual sharing of electrons between the bonded atoms is called a covalent bond. It is also known as a molecular bond. Covalent compounds are those compounds which are formed by the electron sharing between two or more non-metals.
The octet rule is the rule in accordance to which the elements have the tendency to bond with other elements and acquire eight electrons in their valence shells. This results in achieving a stable noble gas configuration.
For example, the formation of NaCl occurs according to the octet rule. The electronic configuration of sodium is [tex]{\text{1}}{{\text{s}}^{\text{2}}}{\text{2}}{{\text{s}}^{\text{2}}}{\text{2}}{{\text{p}}^{\text{6}}}{\text{3}}{{\text{s}}^{\text{1}}}[/tex]while that of chlorine is [tex]{\text{1}}{{\text{s}}^{\text{2}}}{\text{2}}{{\text{s}}^{\text{2}}}{\text{2}}{{\text{p}}^{\text{6}}}{\text{3}}{{\text{s}}^{\text{2}}}{\text{3}}{{\text{p}}^{\text{5}}}[/tex].
Chlorine is one electron short of the stable noble gas configuration and sodium can achieve stable configuration by losing an electron. So sodium loses an electron and forms cation and chlorine gains that electron to complete its octet.
The atomic number of nitrogen is 7. Its ground state electronic configuration is [tex]{\mathbf{1}}{{\mathbf{s}}^{\mathbf{2}}}{\mathbf{2}}{{\mathbf{s}}^{\mathbf{2}}}{\mathbf{2}}{{\mathbf{p}}^{\mathbf{3}}}[/tex] . The partial orbital diagram is the diagrammatic representation of the distribution of electrons in the valence shell only. In case of nitrogen, the valence shell is 2.
Nitrogen has five electrons in its valence shell. Out of these five electrons, two are paired while three remain unpaired. If all three unpaired electrons are to be used, it will accept three electrons from the neighboring atoms to make three covalent bonds.
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Answer details:
Grade: High School
Subject: Chemistry
Chapter: Ionic and covalent compounds
Keywords: covalent bonds, nitrogen, unpaired electrons, bond, partial orbital diagram, configuration, valence shell, mutual sharing, octet rule.
Related Questions
How is hydrogen in heavy water different from hydrogen in normal water?
Answers
Answer:
the hydrogen atoms in heavy water have a neutron in the nucleus, doubling the mass
Explanation:
trust me
The hydrogen in heavy water contains one neutron while the hydrogen in normal water does not have any neutrons. The hydrogen of heavy water is an isotope of hydrogen called deuterium.
What is deuterium?Deuterium is one of two stable isotopes of hydrogen. The nucleus of a deuterium atom posseses one proton and one neutron. Deuterium has a natural abundance on the earth of about one atom in 6420 of hydrogen.
Deuterium has approximately 0.0156% of all the naturally occurring hydrogen in the ocean. The abundance of deuterium changes from one type of natural water to another.
Deuterium is the isotope of hydrogen, the mass number of deuterium is 2 while the mass number of hydrogen is 1.
Normal water has a molecular formula of H₂O in which hydrogen is ¹H₁ and the molecular formula of heavy water is D₂O in which D is deuterium has symbol ²H₁ as it contains one proton and one neutron.
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In the science lab, students are testing solutions as acids or bases. the ph level of solution "x" was determined to be an 8. what is solution "x"?
Answers
Based on the structure, which material will dissolve this biomolecule the best? dilute alcohol water oil ionic solution
Answers
The given biomolecules are lipids and they are insoluble in water.But they can be dissolved in non-polar ionic solutions.
What are lipids?Lipids are essential biomolecules for living organisms. Lipids are composed of long chain fatty acids and triglycerides. They have a hydrophilic head and a hydrophobic tail. This hydrophobicity make them insoluble in water.
Lipids are significant for ion transportation, cell repair, cell membrane formation, ion balancing etc. The structure of lipids are clearly explained by the Fluid -Mosaic model.
Water is a universal solvent and it can dissolve all polar compounds by forming hydrogen bond with them or charge separation. But, lipids are not soluble in polar compounds such as water and alcohols.
Thus, lipids are insoluble in water, alcohol as well as in oil, since they have a hydrophobic tail. Lipids shows some solubility in non-polar ionic solution.
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Is a candle smelling like a pine tree is that a chemical change chemical property physical change or physical property?
Answers
Homogeneous mixture that does not settle out upon standing reflect light is an element. solid. hydrated.
Answers
There are three types of homogeneous mixtures, these are: solutions, colloids and suspension. Colloids are usually distinguished by Tyndall effects. Light passing through a colloidal dispersion will be reflected.
a. A colloid is a homogeneous mixture that does not settle out upon standing.
A colloid is a homogeneous mixture where the particle size is intermediate between that of a true solution and a suspension. The particles in a colloid are small enough that they do not settle out upon standing but are large enough to scatter light, exhibiting the Tyndall effect. Examples include milk, fog, and gelatin.
A suspension is a heterogeneous mixture where the particles are large enough to eventually settle out upon standing. An example of a suspension is muddy water.
Solid refers to a state of matter and does not describe the nature of the mixture in terms of settling behavior.
Hydrated refers to a substance that includes water molecules within its structure, typically referring to a crystalline substance like a hydrated salt. It does not describe the mixture's behavior in terms of settling. The correct answer is a.
Complete Question:
A homogeneous mixture that does not settle out upon standing is
a. a colloid
b. a suspension
c. solid
d. hydrated
Illustrate and describe the sequence in which ten electrons occupy the five orbitals related to an atoms d sublevel
Answers
Answer:
In an atom, subshell is defined as the set of states in a given shell that have the same azimuthal quantum number (ℓ).
For a d-subshell, the value of azimuthal quantum number (ℓ) is 3. Also, a d-subshell contains 5 atomic orbitals, namely [tex]d_{{z}^{2}},\, d_{xy},\, d_{yz},\, d_{xz},\, d_{{x}^{2}-{y}^{2}}[/tex], that can be occupied by 2 electrons each.
The filling of electrons in a subshell, such as the d-subshell, of a given shell is governed by the Hund's Rule of maximum multiplicity.
According to this rule, firstly all the 5 atomic orbitals of the d-subshell are singly filled and then the electrons are paired.
Since, a d-subshell can contain 10 electrons.
Therefore, firstly the 5 atomic orbitals are occupied with one electron each
[tex]d^{1}_{{z}^{2}},\, d^{1}_{xy},\, d^{1}_{yz},\, d^{1}_{xz},\, d^{1}_{{x}^{2}-{y}^{2}}[/tex]
Then the remaining five electrons, results in the pairing of electrons in each d-atomic orbital.
[tex]d^{2}_{{z}^{2}},\, d^{2}_{xy},\, d^{2}_{yz},\, d^{2}_{xz},\, d^{2}_{{x}^{2}-{y}^{2}}[/tex]
In the d sublevel, which has five orbitals, ten electrons are arranged according to the Aufbau principle, Hund's rule, and the Pauli exclusion principle. Electrons fill each orbital singly with the same spin before any orbitals are doubly occupied with opposite spins. The orbital filling diagram reflects this sequence visually.
Explanation:To understand how ten electrons occupy the five d orbitals, we can refer to the Aufbau principle, Hund's rule, and the Pauli exclusion principle. According to these principles, electrons fill up orbitals starting from the lowest energy level moving to higher levels.
Each d sublevel can contain a maximum of 10 electrons since it has five orbitals, and each orbital can hold two electrons with opposite spins. Following Hund's rule, all five d orbitals will be singly occupied before any one of them gets a second electron. Additionally, all electrons in singly occupied orbitals will have the same spin, depicted by arrows pointing in the same direction.
An orbital filling diagram for a d sublevel with ten electrons would show the first five arrows (each representing an electron) pointing upwards (↑) to indicate one spin direction, and the next five arrows pointing downwards (↓) to indicate the opposite spin, each paired with one of the first five.
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Will all cars have roughly the same amount of force available
Answers
What do Lewis structures show?
Question 7 options:
only electrons that are unavailable for bonding
all but the valence electrons
only valence electrons
all electrons
Answers
Answer: Only the electrons in the outermost shell
Explanation:
If a nickel ion has an atomic number of 28 and a positive charge of 2, how many electrons are there?
Answers
Hopes this helps ;)
Write the hyphen notation of the three isotopes of hydrogen
Answers
Hydrogen have three isotopes namely proton, deuteron and triton. The hyphen notation for these isotopes can be written as H-1, H-2 and H-3 with mass number 1, 2 and 3 respectively.
What are isotopes?Isotopes are atoms of same atomic number and different mass numbers. Isotopes can be of one mass number difference or 2 to three. For example, carbon have three isotopes. C-12, C-13, C-14. The mass numbers are one unit higher from the previous one.
Many elements have isotopes, like for chlorine, bromine, nitrogen, fluorine etc with a natural stability. Hydrogen have three isotopes that are hydrogen -1 with one mass number 1 called proton.
Hydrogen-2 with mass number 2 called deuteron and hydrogen-3 with mass number 3 called triton.
They can be represented as flows:
[tex]^{1}H , \\^{2}H , \\^{3}H[/tex]
Here, the top number is mass number and the bottom number is one which is same for all hydrogen isotopes.
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What is the transfer of energy by electromagnetic waves? A) radiation B)
conduction C) convection D) thermal energy
Answers
Goodluck
The answer I think it is
A. Radiation
A molecule that is composed only of chains and rings of hydrogen and carbon is called a
Answers
How many moles of potassium chloride are produced from 11.3 g of chlorine?
Answers
Can the amount of sugar be measured in a liquid using a laser pointer and a prism?
Answers
n_i*sin(θi) = n_r*sin(θr), where,
n_i = index of refraction of the incident medium
n_r = index of refraction of the refractive medium
θi = angle of incidence
θr = angle of refraction
You make use of the laser pointer, prism, and sugar solutions in various known concentrations. You then graph the sugar concentration versus the angle of refraction. You can then determine the amount of sugar in a liquid after determining the angle of refraction of that unknown sugar solution.
After a student makes a solution, its temperature rises.
Which term describes this process?
endothermic chemical reaction
exothermic chemical reaction
exothermic solution formation
endothermic solution formation
Answers
Since there is no change in the molecule structure of the substance, we could not consider this a chemical reaction.
Since the temperature of the solution rises, it gives off heat to its surrounding (Not absorb it) , so i believe it will be considered as exothermic.
What do the words in this group have in common biology chemistry anatomy nuclear physics?
Answers
Biology, chemistry, anatomy, and nuclear physics are different branches within the field of science.
Explanation:The words biology, chemistry, anatomy, and nuclear physics all belong to the field of science. They are different branches or subdisciplines within the broader category of science. Biology is the study of living organisms and their interactions with the environment. Chemistry focuses on the composition, structure, properties, and changes of substances. Anatomy is the study of the structure of organisms, especially the human body. Nuclear physics is a branch of physics that studies atomic nuclei and their interactions.
According to the animation, what does the electron transport chain do to the concentration of hydrogen ions (protons)
Answers
Write the element symbol for the element with the abbreviated electron configuration [ne]3s23p2.
Answers
Explain how dipole interactions and dispersion forces are related
Answers
Sublimation and boiling both happen at the surface of the substance.
a. True
b. False
Answers
Boiling is vaporization that occurs both below and at the surface of the liquid.
However, evaporation happens at the surface of the substance.
So, if you need to correct this statement, the correction would be:
Sublimation and evaporation happen at the surface of the substance.
Distilled water has a hydronium ion concentration of 1
What is the pH of distilled water?
7
–7
10
1 × 10 –7
Answers
In that case, the value of pH can be calculated using the formula:
pH = - Log [H3O+].
pH = - Log [1 * 10^-7]
pH = - [-7]
pH = 7
From this calculation, the correct answer will be A, which is 7.
Why is identifying unknown compounds important to chemistry?
Answers
Final answer:
Identifying unknown compounds is crucial in chemistry as it helps determine their composition, structure, and properties. This knowledge is essential for predicting behavior, reactivity, and potential applications of compounds.
Explanation:
Identifying unknown compounds is important to chemistry because it allows scientists to determine the composition, structure, and properties of those compounds. By knowing the elements present in a compound, their relative amounts, and the molecular or empirical formula of the compound, chemists can make predictions about its behavior, reactivity, and potential applications. For example, knowing the composition of a compound can help scientists understand its toxicity, stability, solubility, and potential uses in various industries.
Give an example of a two phase mixture and describe how you would separate the substances
Answers
Which is a pure substance? A. sugar B. trail mix C. leaf salad D. sugar water
Answers
I hope this helps!
Answer:
A
Explanation:
Which phrase describes a solution?
A. A homegeneous mixture
B. A graduated substance
C. A heterogeneous mixture
D. A primary mixture of elements
Answers
Answer:
The answer is A. A homegeneous mixture
Explanation:
A chemical solution is the homogeneous mixture of one or more substances dissolved in another substance in greater proportion. A chemical solution is composed of solute and solvent. The solute is the substance that dissolves and the solvent that dissolves it.
Consider the chemical equilibrium of the following reaction CH3COOH CH3COO– (aq) + H+(aq) What will happen to the chemical equilibrium of the solution if CH3COONa is added? The equilibrium will shifts to the right. The equilibrium will shifts to the left. The equilibrium will be unaffected. The equilibrium will be lost.
Answers
Answer: The equilibrium will shifts to the left.
Explanation:
Any change in the equilibrium is studied on the basis of Le-Chatelier's principle.
This principle states that if there is any change in the variables of the reaction, the equilibrium will shift in the direction to minimize the effect.
[tex]CH_3COOH\rightleftharpoons CH_3COO^-+H^+[/tex]
Thus if [tex]CH_3COONa[/tex] is added it will dissociate to give [tex]CH_3COO^-[/tex] and [tex]Na^+[/tex]
[tex]CH_3COONa\rightarrow CH_3COO^-+Na^+[/tex]
Thus as the concentration of [tex]CH_3COO^-[/tex] increases, the equilibrium will shift in a direction where concentration of [tex]CH_3COO_-[/tex] decrease i.e. the dissociation of [tex]CH_3COOH[/tex] will be further depressed i.e the equilibrium will shift to the left.
Answer:
C
Explanation:
Which was the limiting reactant: the zinc or the hydrochloric acid? Remember that the limiting reactant is completely consumed in a reaction and no new product is formed unless more of the limiting reactant is added.
Answers
Zn + 2 HCl → ZnCl₂ + H₂
Moles Zn: 1/65.38 = 0.0153 mol
Moles HCl: 1/36.46 = 0.0274 mol
Moles of HCl needed:
0.0153 mol Zn (2 mol HCl/1 mol Zn) = 0.0306 moles HCl needed
Since the available moles of HCl is lesser than the theoretical amount of HCl needed, then the limiting reactant is HCl in this reaction.
The limiting reactant can be determined by comparing the molar amounts to the stoichiometric ratios. For the given situations, HCl is the limiting reactant in cases (a) and (b), while Zn is the limiting reactant in case (c). This means that the reaction will stop when these reactants are completely consumed.
To determine the limiting reactant in a chemical reaction, we need to compare the molar amounts of the reactants to the stoichiometric ratios given in the balanced chemical equation. For the reaction between Zinc and Hydrochloric Acid: Zn + 2HCl → H₂ + ZnCl₂.
Situation (a): 12 atoms of Zinc and 8 molecules of HCl
According to the balanced equation, 1 atom of Zn reacts with 2 molecules of HCl. Therefore, 12 atoms of Zinc would require 24 molecules of HCl. Since only 8 molecules of HCl are available, HCl is the limiting reactant.Situation (b): 3 moles of Zn and 4 moles of HCl
The balanced equation indicates that 1 mole of Zn reacts with 2 moles of HCl. Thus, 3 moles of Zn would require 6 moles of HCl. As there are only 4 moles of HCl, HCl is again the limiting reactant.Situation (c): 40g of Zn and 56g of HCl
Converting the masses to moles: Molar mass of Zn is approximately 65.38 g/mol, so 40g of Zn is approximately 0.612 moles. Molar mass of HCl is approximately 36.46 g/mol, so 56g of HCl is approximately 1.54 moles. From the balanced equation, 0.612 moles of Zn would require 1.224 moles of HCl. Since there are 1.54 moles of HCl, Zn is the limiting reactant.What is the class that includes sedimentary rocks which are deposited from a solution made by organic processes?
Answers
Biochemical or organic sedimentary rocks are the class of sedimentary rocks that are deposited from a solution made by organic processes. They form from the accumulation of plant and animal debris.
Explanation:The class of sedimentary rocks that are deposited from a solution made by organic processes is generally referred to as biochemical or organic sedimentary rocks. These form from the accumulation of plant and animal debris. For example, limestone often forms from the calcium carbonate shells of marine organisms.
Another example is coal, which forms from the remains of plants in swamp environments. Organic processes producing significant amounts of biological debris, result in specific types of sedimentary rocks.
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The red line of the hydrogen emission spectrum has a wavelength of 656.1 nm. Calculate the energy of one photon
Answers
The formula we can use here is the Plancks equation:
E = h c / ʎ
where h is Plancks constant = 6.626 × 10-34 m2 kg / s, c is speed of light = 3 x 10^8 m/s and ʎ is wavelength = 656.1 x 10^-9 m
Therefore E is:
E = (6.626 × 10-34 m2 kg / s) * (3 x 10^8 m/s) / 656.1 x 10^-9 m
E = 3.03 x 10^-19 J
The energy of one photon of the red line of the hydrogen emission spectrum can be calculated using Planck's equation and it is approximately 3.03 x 10^-19 Joules.
Explanation:The energy of a photon can be calculated using Planck's equation, E = hv, where 'E' is the energy, 'h' is Planck's constant (6.63 x 10^-34 J.s), and 'v' is the frequency. We can express frequency in terms of speed of light (c) and wavelength (λ) using the equation v = c/λ.
First, convert the wavelength from nm to meters: 656.1 nm = 656.1 x 10^-9 m. Then find the frequency, v = (3.00 x 10^8 m/s) / (656.1 x 10^-9 m) = 4.57 x 10^14 s^-1.
Next, substitute 'v' into Planck's equation to find the energy: E = (6.63 x 10^-34 J.s) x (4.57 x 10^14 s^-1) = 3.03 x 10^-19 J.
Therefore, the energy of one photon of the red line of the hydrogen emission spectrum is approximately 3.03 x 10^-19 Joules.
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Which element among elements 2, 4, and 6 has the lowest ionization energy?
Answers
Answer:
Element 6 has the lowest ionization energy
Explanation:
The ionization energy increases across the period but decreases down the group of a periodic table.
Which implies that the elements with the lowest ionization energies would be in the bottom left-hand corner of the periodic table. The change in ionization energies is also increases going down the periodic table (by change within a group) than going across the periodic table (by change within a period). From the 3 elements above we could infer that element 6 has the lowest ionization energy.