The decreasing order of elements of the number of valence electrons is as follows:
[tex]\boxed{{\text{Kr}}={\text{Ar}}>{\text{Br}}={\text{Cl}}={\text{F}}>{\text{O}}>{\text{As}}={\text{Sb}}>{\text{Si}}>{\text{Al}}>{\text{Ca}}={\text{Ba}}={\text{Sr}}>{\text{Li}}>{\text{Na}}}[/tex]
Further explanation:
The electronic configuration is the distribution of electrons of an atom in the atomic orbitals. There are two states for an electron: ground as well as the excited state. The configuration of the atom in the lowest possible energy levels is called the ground-state electronic configuration. When an electron jumps from the stable ground state to some higher level, that state is called the excited state and the electronic configuration corresponding to this state is known as the excited-state half-filled configuration.
The filling of electrons in different energy levels or orbitals is done in accordance with the following three rules.
1. Aufbau principle: The principle states that the electrons are filled in various orbitals in the increasing order of their energies as follows:
[tex]1s<2s<2p<3s<3p<4s<3d<4p<5s<4d<5p<6s<4f<5d<6p<7s<5f<6d<7p[/tex]
2. Hund’s rule: Electron pairing will not start until each orbital is singly occupied.
3. Pauli’s exclusion principle: According to this principle, all the four quantum numbers [tex]\left({n,\;l,\;{m_l},\;{m_s}}\right)[/tex] for any two electrons can never be the same. In an orbital, the spin of two electrons has to be different. If one electron has the clockwise spin, the other would have the anticlockwise spin and vice-versa.
The atomic number of Kr is 36. Its electronic configuration is [tex]\left[{{\text{Ar}}}\right]\;3{d^{10}}4{s^2}4{p^6}[/tex]. So it has 8 valence electrons.
The atomic number of Ca is 20. Its electronic configuration is [tex]\left[{{\text{Ar}}}\right]4{s^2}[/tex]. So it has 2 valence electrons.
The atomic number of Ba is 56. Its electronic configuration is [tex]\left[{{\text{Xe}}}\right]6{s^2}[/tex]. So it has 2 valence electrons.
The atomic number of Br is 35. Its electronic configuration is [tex]\left[{{\text{Ar}}}\right]\;3{d^{10}}4{s^2}4{p^5}[/tex]. So it has 7 valence electrons.
The atomic number of Li is 3. Its electronic configuration is [tex]1{s^2}2{s^1}[/tex]. So it has 1 valence electron.
The atomic number of F is 9. Its electronic configuration is [tex]\left[{{\text{He}}}\right]\;2{s^2}2{p^5}[/tex]. So it has 7 valence electrons.
The atomic number of As is 33. Its electronic configuration is [tex]\left[{{\text{Ar}}}\right]\;3{d^{10}}4{s^2}4{p^3}[/tex]. So it has 5 valence electrons.
The atomic number of Sb is 51. Its electronic configuration is [tex]\left[{{\text{Kr}}}\right]\;4{d^{10}}5{s^2}5{p^3}[/tex]. So it has 5 valence electrons.
The atomic number of O is 8. Its electronic configuration is [tex]\left[{{\text{He}}}\right]\;2{s^2}2{p^4}[/tex]. So it has 6 valence electrons.
The atomic number of Al is 13. Its electronic configuration is [tex]\left[{{\text{Ne}}}\right]\;3{s^2}3{p^1}[/tex]. So it has 3 valence electrons.
The atomic number of Cl is 17. Its electronic configuration is [tex]\left[{{\text{Ne}}}\right]\;3{s^2}3{p^5}[/tex]. So it has 7 valence electrons.
The atomic number of Si is 14. Its electronic configuration is [tex]\left[{{\text{Ne}}}\right]\;3{s^2}3{p^2}[/tex]. So it has 7 valence electrons.
The atomic number of Na is 11. Its electronic configuration is [tex]\left[{{\text{Ne}}}\right]\;3{s^1}[/tex]. So it has 1 valence electron.
The atomic number of Ar is 18. Its electronic configuration is [tex]\left[{{\text{Ne}}}\right]\;3{s^2}3{p^6}[/tex]. So it has 8 valence electrons.
The atomic number of Sr is 38. Its electronic configuration is [tex]\left[{{\text{Kr}}}\right]\;5{s^2}[/tex]. So it has 2 valence electrons.
So the decreasing order of elements of the number of valence electrons is as follows:
[tex]{\text{Kr}}={\text{Ar}}>{\text{Br}}={\text{Cl}}={\text{F}}>{\text{O}}>{\text{As}}={\text{Sb}}>{\text{Si}}>{\text{Al}}>{\text{Ca}}={\text{Ba}}={\text{Sr}}>{\text{Li}}>{\text{Na}}[/tex]
Learn more:
1. Determine the ion with configuration [tex]\left[{{\text{Ar}}}\right]\;3{d^2}[/tex]: https://brainly.com/question/7599542
2. Identification of element which has electron configuration [tex]1{s^2}2{s^2}2{p^2}3{s^1}[/tex]:https://brainly.com/question/9616334
Answer details:
Grade: High School
Subject: Chemistry
Chapter: Electronic configuration of the elements
Keywords: electronic configuration, valence electrons, decreasing order, Kr, Ar, Cl, Br, F, O, As, Sb, Si, Al, Ca, Ba, Sr, Li, Na, 8, 7, 6, 5, 4, 3, 2, 1, Aufbau, Hund’s rule, Pauli’s exclusion principle.
The elements are ranked by their number of valence electrons from most to least as follows: F, Cl, Br, O, Sb, As, Kr, Ar, Si, Al, Na, Li, Ca, Sr, Ba.
Explanation:The elements can be arranged according to their number of valence electrons (the electrons on the outermost shell of an atom) as follows. Starting with elements having the most valence electrons: F, Cl, Br, O, Sb, As, Kr, Ar, Si, Al, Na, Li, Ca, Sr, Ba.
To explain further, elements in Group 17 (F, Cl, and Br) have 7 valence electrons, Group 16 element (O) has 6, Group 15 elements (Sb, As) have 5, noble gases (Kr, Ar) have 8 (fully-filled), Group 14 element (Si) has 4, Group 13 (Al) has 3, Group 1 elements (Na, Li) have 1, and Group 2 elements (Ca, Sr, Ba) have 2 valence electrons.
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What happens to the potential energy when heat flows out of a system? Why?
According the the first of thermodynamics, energy is neither created nor destroyed, energy is simply converted to other forms of energy. So in this case, heat is also a type of energy so when it flows out of the system, therefore this means that some of the initial potential energy was converted to heat and then flowed out of the system. Therefore potential energy will decrease.
Identify water. weak electrolyte, weak acid nonelectrolyte strong electrolyte, strong acid weak electrolyte, strong acid strong electrolyte, weak acid
What happens when a chlorine atoms gains an electron?
Select one:
a. The ion has a -1 charge
b. A chloride ion is formed
c. The ion becomes an anion
d. All of the answer choices
How much ATP is produced from a single glucose molecule in each chemical pathway?
After each cellular respiration cycle there are ATP molecules obtained after oxidizing each glucose molecule
Out of which 2 ATP molecules are obtained from glycolysis cycle, 2 ATP molecules from the Krebs cycle, and about 34 ATP molecules from the electron transport system.
So, in all 2 + 2 + 34 = 38 ATP molecules.
Cocl2 is often used in hygrometers. search the internet to determine why? how does this relate to this experiment?
The cobalt(II) chloride (CoCl2) changes color with humidity, making it useful for hygrometers. The color change property of CoCl2 and the process of measuring heat flow in a calorimeter both involve assessment of change under different environmental conditions. Utilizing these tools can answer scientific questions related to improvements in models of atmospheric carbon dioxide concentrations and temperature control.
Explanation:CoCl2, also known as Cobalt(II) Chloride, is used in hygrometers due its property to change color depending on the moisture in the environment. When it is anhydrous (dry, no water) it is blue. When it becomes hydrated in a moist environment, it turns pink.
Relating to the concept of the calorimeter from your experiments, both involve the concept of change with environmental conditions. Just as CoCl2 changes color with humidity, the calorimeter measures change in temperature under constant volume or pressure, giving insights into the heat flow during chemical reactions.
These processes allow for data collection and informed predictions in different fields of study. For instance, understanding the properties of CoCl2 can allow us to effectively measure humidity levels and create models of atmospheric conditions, effectively answering your scientific question of improving models of atmospheric carbon dioxide concentrations that control temperature. Similarly, understanding how to use a calorimeter can assist in calculating the energy produced by specific reactions, leading to beneficial applications in various industries, including food, civil engineering, and environmental studies.
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A mixture can be classified as a solution, suspension, or colloid based on ____.
A. The scattering of its particles
B. The size of its particles
C. The color of its particles
D. The total number of its particles
What type of nuclear reaction do thermonuclear weapons rely on? a. fusion c. both fusion and fission b. fission d. None of the above
Final answer:
Thermonuclear weapons use both fusion and fission reactions. A fission bomb is first used to achieve the high temperatures required for fusion, leading to an extremely powerful explosion measured in kilotons or megatons.
Explanation:
Thermonuclear weapons rely on the type of nuclear reaction known as both fusion and fission. Initially, a fission bomb is detonated to produce the extremely high temperatures necessary for fusion to occur. In essence, the fission reaction is used to ignite the fusion process in these weapons. An example of a thermonuclear bomb is a hydrogen bomb, which contains a fission bomb that, upon explosion, triggers the fusion of hydrogen isotopes, releasing a tremendous amount of energy.
Nuclear fusion requires very high temperatures to initiate, which are typically around 15,000,000 K. In stars, fusion reactions occur naturally, providing the energy that powers these celestial bodies. For thermonuclear weapons, a similar process takes place where the generated heat creates conditions similar to those found at the core of stars, allowing fusion to occur.
These weapons produce a massive number of nuclear reactions in a very short time, with energy yields measured in kilotons or megatons of equivalent conventional explosives. A thermonuclear bomb's explosive power is far greater than conventional explosives, providing both immense thermal output and nuclear radiation.
The smallest particle of matter that retains the chemical properties of carbon is a carbon:
If an atom has 43 electrons, 50 neutrons, and 43 protons, what is it's approximate atomic mass? what is the name of this element?
A 14.01 g sample of n2 reacts with 3.02 g of h2 to form ammonia (nh3). if ammonia is the only product, what mass of ammonia is formed? hint: write the balance equation and use the appropriate mole ratio. it is a limiting reactant problem.
The complete balanced reaction for this is:
N2 + 3H2 --> 2NH3
First we convert the given masses into number of moles.
Molar mass of N2 = 28 g/mol
Molar mass of H2 = 2 g/mol
Therefore,
moles N2 = 14.01 / 28 = 0.5 moles
moles H2 = 3.02 / 2 = 1.51 moles
Then we find which has lower moles/coefficient ratio:
N2 = 0.5 / 1 = 0.5
H2 = 1.51 / 3 = 0.503
Since N2 has lower moles/coefficient ratio, therefore it is the limiting reactant.
So total moles of ammonia formed is:
moles NH3 = 0.5 moles N2 * (2 moles NH3 / 1 mole N2) = 1 mole NH3
The molar mass of NH3 is 17.031 g/mol, hence:
mass NH3 = 1 mole * 17.031 g/mol
mass NH3 = 17.031 grams
The mass of ammonia formed when 14.01 g of N2 reacts with 3.02 g of H2 is 16.97 g. This is determined by using the balanced chemical reaction and stoichiometry to find the limiting reactant, which is H2, and then calculating the amount of NH3 that can be produced from that reactant.
Explanation:To determine the mass of ammonia formed when 14.01 g of N2 reacts with 3.02 g of H2, we first write the balanced chemical equation: N2(g) + 3H2(g) → 2NH3(g).
In this reaction, one mole of nitrogen gas reacts with three moles of hydrogen gas to form two moles of ammonia gas. To find out which reactant is the limiting reactant, we need to convert the masses of N2 and H2 to moles using their molar masses (N2: 28.02 g/mol, H2: 2.02 g/mol).
Calculating moles of reactants:
Using stoichiometry to find the limiting reactant:
The mass of NH3 formed is calculated from the mole ratio of H2 to NH3 (3:2) and the limiting reactant (H2):
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What are isotopes? how are they different from each other?
Isotopes are atoms of the same element with different numbers of neutrons. They have similar chemical properties but differ in their mass numbers. Some isotopes are stable, while others are radioactive.
Explanation:Isotopes are atoms of the same element with the same number of protons but different number of neutrons. They have similar chemical properties but differ in their mass numbers. For example, carbon has three isotopes: carbon-12, carbon-13, and carbon-14.
The differences in the number of neutrons can affect the stability and radioactive properties of isotopes. Some isotopes are stable and remain unchanged over time, while others are radioactive and undergo decay. Radioactive isotopes are used in various applications such as carbon dating and medical imaging.
Isotopes can be represented by their symbol with the mass number as a superscript on the upper left and atomic number as a subscript on the lower left. For instance, carbon-12 is represented as ^12C.
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Which of the following is equal to 3.5 liters?
Name the product formed by the oxidation of d-gulose.
The oxidation of d-gulose, a form of sugar, results in the formation of a product named 2-dehydro-3-deoxy-D-gluconate-6P.
Explanation:The oxidation of d-gulose forms a product known as 2-dehydro-3-deoxy-D-gluconate-6P. This occurs along the Entner-Doudoroff metabolic pathway which primarily converts glucose into ethanol, reserving a net ATP. Oxidation is generally a process wherein a particular molecule loses electrons and increases its oxidation state. In the context of sugars like d-gulose, this usually involves the loss of hydrogen atoms or the gain of oxygen atoms.
This is a molecule that is produced when d-gulose is oxidized in a metabolic pathway called the Entner-Doudoroff pathway. The oxidation of d-gulose in this pathway converts it to 2-dehydro-3-deoxy-D-gluconate-6P and also produces one ATP.
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Write the ions present in the solution of cuso4. express your answers as chemical formulas separated by a comma. identify all of the phases in your answers.
Answer: The ions which are present in the solution of [tex]CuSO_4[/tex] are [tex]Cu^{2+}\text{ and }SO_4^{2-}[/tex], both in aqueous state.
Explanation: When [tex]CuSO_4[/tex] is dissolved in water, it forms an aqueous solution. The solution contains two ions, both in aqueous states.
Equation follows:
[tex]CuSO_4(aq.)\rightarrow Cu^{2+}(aq.)+SO_4^{2-}(aq.)[/tex]
Ions that are present in the solution of [tex]CuSO_4[/tex] are [tex]Cu^{2+}\text{ and }SO_4^{2-}[/tex]
how many atoms are in 33 grams of titanium?
A) 1.72 x 10^23 atoms B) 2.88 x 10^23 atoms C) 3.65 x 10^23 atoms
D) 4.15 x 10^23 atoms
Which is a correct set of values of m for one of the subshells of n = 2?
For n = 4, s, p, d, and f subshells are found in the n = 4 shell of an atom, each with different values of m. The s subshell has one orbital, the p subshell has three orbitals, the d subshell has five orbitals, and the f subshell has seven orbitals.
Explanation:For n = 4, l can have values of 0, 1, 2, and 3. Thus, s, p, d, and f subshells are found in the n = 4 shell of an atom. For l = 0 (the s subshell), m₁ can only be 0. Thus, there is only one 4s orbital. For l = 1 (p-type orbitals), m₁ can have values of −1, 0, +1, so we find three 4p orbitals. For l = 2 (d-type orbitals), m₁ can have values of -2, -1, 0, +1, +2, so we have five 4d orbitals. When l = 3 (f-type orbitals), m₁ can have values of -3, -2, -1, 0, +1, +2, +3, and we can have seven 4f orbitals. Thus, we find a total of 16 orbitals in the n = 4 shell of an atom.
What is the volume of 9.783 x 1023 atoms of kr at 9.25 atm and 512k?
7.38 liters
Further explanationGiven:
N = 9.783 x 10²³ atoms of Kr p = 9.25 atmT = 512 KAvogadro's number = 6.02 x 10²³Question:
The volume of Kr (in liters)
The Process:
Step-1: moles of Kr
We use the conversion formula from the number of atoms to moles.
[tex]\boxed{ \ n = \frac{N}{6.02 \times 10^{23}} \ }[/tex]
[tex]\boxed{ \ n = \frac{9.783 \times 10^{23}}{6.02 \times 10^{23}} \ }[/tex]
Hence, we get 1.625 moles of Kr.
Step-2: the volume of Kr
We use the formula for an ideal gas:
[tex]\boxed{ \ pV = nRT \ }[/tex]
p = pressure in atmV = volume in litersn = amount of substance in molesR = ideal gas constant, i.e., 0.082 L atm/mol K.T = temperature in KelvinLet us calculate the volume.
[tex]\boxed{ \ V = \frac{nRT}{p} \ }[/tex]
[tex]\boxed{ \ V = \frac{(1.625)(0.082)(512)}{9.25} \ }[/tex]
Thus, the volume of Kr is 7.38 liters.
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An island arc complex is formed where
A. two continental plates converge.
B. a volcano erupts along an oceanic plate.
C. a continental and oceanic plate converge.
D. two oceanic plates converge.
its D.. right?
which chemical element has the shortest name?
PPPPPPPPLLLLLLLLZZZZZZZ I need an answer ASAP
1. The letter "p" is the symbol 4p^3 indicates the ______.
a. spin of an electron
b. orbital shape
c. principle energy level
d. speed of an electron
2. What is the number of electrons in the outermost energy level of an oxygen atom?
a. 2
b. 4
c. 6
d. 8
3. How many unpaired electrons are in a sulfur atom (atomic number 16)?
a. 0
b. 1
c. 2
d. 3
Answer :
(1) The correct option is, (b) orbital shape.
(2) The correct option is, (d) 8
(3) The correct option is, (c) 2
Explanation :
Part 1 :
As we know that there are four quantum numbers :
Principle Quantum Numbers : It describes the size of the orbital and the energy level. It is represented by n. Where, n = 1,2,3,4....
Azimuthal Quantum Number : It describes the shape of the orbital. It is represented as 'l'. The value of l ranges from 0 to (n-1). For l = 0,1,2,3... the orbitals are s, p, d, f...
Magnetic Quantum Number : It describes the orientation of the orbitals. It is represented as [tex]m_l[/tex]. The value of this quantum number ranges from [tex](-l\text{ to }+l)[/tex]. When l = 2, the value of [tex]m_l[/tex] will be -2, -1, 0, +1, +2.
Spin Quantum number : It describes the direction of electron spin. This is represented as [tex]m_s[/tex] The value of this is [tex]+\frac{1}{2}[/tex] for upward spin and [tex]-\frac{1}{2}[/tex] for downward spin.
As per question, the letter "p" is the symbol [tex]4p^3[/tex] indicates the shape of the orbital.
Hence, the correct option is (b) orbital shape.
Part 2 :
Electronic configuration : It is defined as the representation of electrons around the nucleus of an atom.
Number of electrons in an atom are determined by the electronic configuration.
The element oxygen belongs to group 16 and atomic number 8.
As per question the electronic configuration of oxygen atom will be,
[tex]1s^22s^22p^4[/tex]
The total number of electrons = [2 + 2 + 4] = 8
Hence, the correct option is (d) 8
Part 3 :
The element sulfur belongs to group 16 and atomic number 16.
As per question the electronic configuration of sulfur atom will be,
[tex]1s^22s^22p^63s^23p^4[/tex]
In 3p orbital there are 4 electrons and 'p' orbital can contain 6 electrons. So, the number of paired electrons and unpaired electrons will be 2 and 2 respectively.
Hence, the correct option is (c) 2
What noble gas has the same electron configuration as the oxide ion?
Answer:
neon
Explanation:
neon and oxide ion
both have configuration 1s2 2s2 2p6
Which is a chemical property that can be used to identify hydrogen peroxide? A. clear and colorless B. reacts when its exposed to light C. boiling point of 108 °C (226.4 °F) D. melting point of -33 °C (–27.4 °F)
Answer: Option (B) is the correct answer.
Explanation:
A property which tends to bring changes in chemical composition of a substance is known as chemical property.
For example, precipitation, reactivity, toxicity etc are chemical property.
So, when hydrogen peroxide reacts upon exposure to light then it depicts its chemical property.
On the other hand, a property that does not bring any change in chemical composition of a substance are known as physical properties.
For example, shape, size, mass, volume, density, etc of a substance are all physical properties.
Thus, we can conclude that a chemical property that can be used to identify hydrogen peroxide is that it reacts when its exposed to light.
A geologist finds a section of rock that shows was ripple marks. What does it he pr send me or a ripple marks say about the area where the rock formed?
A. the rock formed in a fast moving stream
B. The rock formed under Earths surface at very high temptress
C. The rock formed from mollusk shells.
D. The rock was blown out of a volcano
A sample of calcium carbonate, caco3(s) absorbs 45.5 j of heat, upon which the temperature of the sample increases from 21.1 °c to 28.5 °c. if the specific heat of calcium carbonate is 0.82 j/g·˚c, what is the mass (in grams) of the sample?
The mass of the sample of Calcium carbonate is 0.195g
The heat capacity formula,
[tex]\rm \bold{ Q= mC\Delta T}[/tex]\
Where,
Q- Heat absorbed = 45.5 J
C- specific heat capacity of [tex]\rm \bold{ CaCO_3 = 0.82 J/g/^\cdot C }[/tex]
[tex]\rm \bold{ \Delta T}[/tex]- change in temperature = 280.5 k
m - mass = ?
Solving Equation for m
[tex]\rm \bold {m = \frac{45.5 J}{0.82\times 280.5 K } }\\\rm \bold {m = 0.195 g }[/tex]
Hence , we can conclude that the mass of sample is 0.195g.
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Which of the following is usually done last in the scientific method of investigation?
A. Ask a question
B. Test with an experiment
C.Analyze data and draw conclusions
D. Do background research and construct a hypothesis
Answer: C. Analyze data and draw conclusions
Explanation:
A scientific method of investigation is a step by step detailed process which involves studying the background and theory associated with the chosen topic of research, observation, forming hypothesis keeping in mind the observation, testing the hypothesis by using experimental procedures, analyzing the data and developing conclusion.
On the basis of the above description, C is the correct option. The data and conclusion can be drawn after the entire experimental process.
An ideal gaseous reaction (which is a hypothetical gaseous reaction that conforms to the laws governing gas behavior) occurs at a constant pressure of 30.0 atm and releases 74.4 kj of heat. before the reaction, the volume of the system was 7.20 l . after the reaction, the volume of the system was 2.00 l . calculate the total internal energy change, δe, in kilojoules. express your answer with the appropriate units.
The total change in internal energy would simply be calculated using the formula:
ΔU = -P (V2 – V1) + ΔH
where ΔU is the change in internal energy; P is constant pressure = 30 atm = 3,039,750 Pa; V2 is final volume = 2 L = 0.002 m^3; V1 is initial volume = 7.20 L = 0.0072 m^3; while ΔH is the heat = -74,400 J (heat released so negative)
Therefore:
ΔU =-3,039,750 Pa * (0.002 m^3 - 0.0072 m^3) + (- 74,400 J)
ΔU = - 58,593.3 J = - 58.6 kJ
The circles, or orbits, for electrons are called energy levels. Each level can hold only a certain number of electrons. Add electrons to each level until you can’t add any more. How many electrons can each level hold?
Answer:
n = 1 can hold a maximum of 2 electrons
n = 2 , maximum 8 electrons
n = 3, maximum 18 electrons
Explanation:
As per the principles of quantum mechanics, the number of electrons that can be added to a given energy level is deduced based on the three quantum numbers: n, l , m(l) and m(s)
'n' is the principal quantum number which defines the energy level. It can take on integer values: 0,1,2,3...
'l' is the angular momentum quantum number which defines the shape of the orbital that an electron occupies
l = 0,1,2...(n-1)
where: l = 0 corresponds to s-orbital
l = 1 corresponds to p-orbital
l = 2, corresponds to d-orbital
'm(l)' is the magnetic moment quantum number which defines the orientation of an orbital in space.
m(l) = -l, 0, +l
'm(s)' is the spin quantum number which defines the orientation of an electron is an orbital
m(s) = +1/2 or -1/2
An s, p or d-orbital can accommodate a maximum of 2, 6 and 10 electrons respectively
For energy level with n= 1
l = 0, i.e. s-orbital or 1s.
Therefore, the maximum number of electrons for a 1s orbital would be 2 resulting in an electron configuration of 1s²
For energy level with n= 2
l = 0, 1 i.e. s and p-orbitals
The maximum number of electrons would be:
[tex]2(s,orbital) + 6(p,orbital) = 8[/tex]
Electron configuration: 2s²2p⁶
For energy level with n= 3
l = 0, 1, 2 i.e. s, p and d-orbitals
The maximum number of electrons would be:
[tex]2(s,orbital) + 6(p,orbital) + 10(d,orbital)= 18[/tex]
Electron configuration: 3s²3p⁶3d¹⁰
The density of aluminum is 2.7 g/ml what is the mass of a sample that displaces 50.0 mL of water?
An element with the smallest anionic (negative-ionic) radius would be found on the periodic table in
Group 3, Period 4.
Group 17, Period 2.
Group 1, Period 7.
Group 5, Period 3.
On the periodic table, the element with the smallest anionic (negative-ionic) radius would be in Group 17, Period 2.
What is as periodic table?Scientists can quickly calculate an element's weight, number of electrons, electronic structures, and other distinguishing chemical properties thanks to the periodic table, often known as the periodic table of elements.
Why is the periodic table important?Every known element is grouped into groups with related properties in the periodic table of elements. As a result, it becomes an essential tool for researchers and chemists. You can forecast how chemicals will behave if you know how to use and comprehend the periodic table.
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What is the volume of 19.87 mol of ammonium chloride (NH4Cl) at STP?