Which is true about each element in a period or horizontal row of the periodic table?


A.
Each element has one more outer shell than the element before it.


B.
Each element has one more outer electron than the element before it.


C.
Each element has one more isotope than the element before it.


D.
Each element bonds with the element before it.

Answer: The correct answer is C.

Explanation: Frictional force is the contact force which resists the motion of one surface on another.

Mathematically,

[tex]f=\mu N[/tex]

where,

f = frictional force

[tex]\mu[/tex] = Coefficient of friction

N = normal force acting on a body

We need to find the ratio of force of sliding friction ( which is a type of frictional force) and the normal force acting on an object. This will be equal to coefficient of friction.

[tex]\mu=\frac{f}{N}[/tex]

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If you need the answer to this problem you need to post more information about the problem.

Answer:

Pair A: B

Pair B: A

Pair C: B

Answer: 5 moles of [tex]CO_2[/tex] will be produced when 10 moles  of [tex]H_2O[/tex] are produced.

Explanation:

[tex]CH_4+2O_2\rightarrow CO_2+2H_2O[/tex]

Multiplying the chemical equation with 5.

[tex]5CH_4+10O_2\rightarrow 5CO_2+10H_2O[/tex]

In the given reaction ,if 10 moles of water are produced then 5 moles of Carbon-dioxide produced.

Answer:

5

Explanation:

The correct answer is that a chemical bond formed when two atoms share electrons is called a Covalent Bond, though this option is not provided in the question. This type of bond is exemplified by the bonding in a hydrogen molecule (H2).

The question seems to have a typographical error. It appears to be asking about a certain type of chemical bond, specifically one formed when two atoms share electrons. However, none of the answer choices appear to correctly describe this type of bond. The appropriate response for a chemical bond that involves sharing of electrons would be a Covalent Bond. A typical example of this would be the bonding between two Hydrogen atoms in a H2 molecule, where they share their singular electron to fulfil their respective octet.

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Answer:

3 mol Cl₂/2 mol AlCl₃ (three over two)

Step-by-step explanation:

Start with the balanced equation"

2Al + 3Cl₂⟶ 2AlCl₃

The steps in the calculation are

mass of AlCl₃ ⟶ moles of AlCl₃⟶ moles of Cl₂ ⟶ mass of Cl₂

The critical step is the conversion of moles.

You multiply the moles of AlCl₃ by a conversion factor to get moles of Al:

Moles of AlCl₃ × conversion factor = moles of Al.

The conversion factor is the molar ratio, and it uses the coefficients of the formulas in the balanced equation.

It is either (2 mol AlCl₃/3 mol Cl₂) or (3 mol Cl₂/2 mol AlCl₃).

You choose the one that has the desired units of the answer in the numerator.

We choose the second option, because it has the correct units.

For example,

[tex]\text{0.2 mol AlCl}_{3} \times \frac{3\textbf{ mol Cl}_{2} }{ 2\text{ mol AlCl}_{3} } = 0.3\textbf{ mol Cl}_{2})[/tex]

Notice how the units "mol AlCl₃" cancel and the correct units appear in the answer.

If we had used the other conversion factor, we would have gotten the wrong units.

The  grams of  carbon   monoxide  that are needed to react   is  148.68 grams

  calculation

Step 1: find the   moles of iron

 moles =mass÷  molar mass

from periodic table the molar mass  of Fe  is 56 g/mol

= 198.5 g÷ 56 g/mol =3.54 moles

Step 2: use the mole  ratio  to determine the  moles  of  carbon monoxide(Co)

that is from  given equation Co : Fe  is 3:2  therefore the  moles of Co

= 3.54 x 3/2 = 5.31  moles

Step 3 : find mass of CO

mass = moles ×  molar mass

from periodic table  the molar mass  of Co = 12+16 = 28 g/mol

mass is therefore = 5.31 moles × 28 g/mol = 148.68  grams

Answer:

weakest to strongest

Explanation:

Covalent bonding is an intramolecular interactions that hold the atoms together. Dispersion forces, hydrogen bonding and dipole-dipole interactions are intermolecular interactions . Intramolecular interactions are stronger than intermolecular interactions .

Dipole-dipole interactions occur when the partially positively charged part of a molecule interacts with the partially negatively charged part of the neighboring molecule. They are relative strong.

Hydrogen bonding is a special kind of dipole-dipole interaction that occurs specifically between a hydrogen atom bonded to either an oxygen, nitrogen, or fluorine atom. It is the strongest dipole-dipole interaction.

Dispersion forces  exist between all types of molecules, whether ionic or covalent (polar or nonpolar). They are the weakest of the intermolecular forces.

Here is the answer!!! Just fill in the blanks.

Hi my dear friend,

Changes of state involve a solid melting, a liquid freezing, a liquid boiling or a gas condensing. When steam, which is gaseous water, condenses, heat is released. Likewise when liquid water freezes, heat is given off. In fact heat must be continually removed from the freezing water or the freezing process will stop.

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Answer is: 1.6 liters of NO are produced.

Balanced chemical reaction: 4NH₃ + 5O₂ → 4NO + 6H₂O.

V(O₂) = 2.0 L; volume of oxygen.

From balanced chemical reaction: n(O₂) : n(NO) = 5 : 4.

V(O₂) : V(NO) = n(O₂) : n(NO).

2.0 L : V(NO) = 5 : 4.

V(NO) = 2 L · 4 ÷ 5.

V(NO) = 1.6 L; volume of nitrogen (II) oxide.

 The percent yield  is 83.12%

  calculation

percent yield =  actual  yield / theoretical  yield x 100

actual yield =125.1 g

Theoretical yield  is calculated as below

Step 1:  find the  moles of MgCl₂

moles  = mass÷ molar mass

from periodic table the  molar mass of mgCl₂ =24.3 +(35.5 x2) =95.3 g/mol

moles = 50.0 g÷ 95.3 g/mol =0.525  moles

Step 2:  use the mole ratio to determine the moles of AgCl

from given equation MgCl₂: AgCl  is  1:2

therefore the moles of AgCl = 0.525  x2/1 =1.05 moles

Step 3: find the theoretical mass  AgCl

mass = moles x molar mass

from periodic table the molar mass of Agcl = 107.87 +35.5 =143.37 g/mol

mass = 1.05 moles x 143.37 g/mol =150.5 grams

The percent  yield  is therefore = (125.1 g/150.5)  x 100 = 83.12%

1C5H10 + 15/2O2 => 5CO2 + 5H2O

Explanation:

Balanced equation is defined as the equation which contains same number of atoms on both reactant and product side.

For example, [tex]C_{5}H_{10}(l) + O_{2} \rightarrow CO_{2}(g) + H_{2}O(g)[/tex]

Number of atoms on reactant side are as follows.

Number of atoms on product side are as follows.

So, to balance this equation we will multiply [tex]CO_{2}[/tex] on product side by 5 and also multiply [tex]H_{2}O[/tex] by 5. On the reactant side, we multiply [tex]O_{2}[/tex] by  [tex]\frac{15}{2}[/tex]. Therefore, the balanced equation is as follows.

      [tex]C_{5}H_{10}(l) + \frac{15}{2}O_{2} \rightarrow 5CO_{2}(g) + 5H_{2}O(g)[/tex]

Thus, we can conclude that for the given unbalanced equation the coefficient for [tex]C_5H_10[/tex] is 1.

It threatens local industries. This is because local industries are smaller in scale than the industries that have international reach. The local industries cannot compete with the international industries because they cannot keep their prices as competitive because they lack economies of scale.

Answer is: the total number of electrons shared between the atoms is four.

Molecule of oxygen is nonpolar because double linear bonds (O=O).

Oxygen (O) is an element with atomic number 8, it means it has eight protons and eight electrons, so atom has neutral charge. Oxygen is a nonmetal.

Electron configuration of oxygen atom: ₈O 1s² 2s² 2p⁴.

Oxygen atom has six valence electrons, so it is in 16 group of Periodic table of elements.

Two valence electrons from both oxygen atoms form double bond (O::O) at oxygen molecule.

Answer:

Formula for oxygen is [tex]O_{2}[/tex] and total number of electrons shared between the atoms are 4

Explanation:

Oxygen is a diatomic molecule. Hence two oxygen atoms combine to produce one oxygen molecule.

Now, number of valence electron in a oxygen atom is 6. So total number of valence electrons used to form oxygen molecule are 12.

To draw a Lewis structure for [tex]O_{2}[/tex], octet rule should be fulfilled by both oxygen atoms.

According to octet rule, an atom should have 8 electrons in its valence shell

Lewis structure for oxygen molecule has been attached below.

Here electrons shared by oxygen atoms are represented as vertical line. These are called bonding electrons.

Unshared electrons are represented by dot. These are called lone pairs.

Here one bond is formed by sharing two electrons.

As there are two bonds between two oxygen atoms therefore total number of shared electrons between oxygen atoms are 4.

Answer: Option (A) is the correct answer.

Explanation:

Braising means first of all fry a dish slightly and then cook it slowly in a closed vessel or dish. The vessel is close so that the liquid present inside it does not evaporates.

Also, Braising is done to mix the flavors of different liquids or spices appropriately.  

Thus, we can conclude that as a cooking method, braising is valued for its ability to retain flavor.

Answer:

The correct answer is D.

Explanation:

This method of cooking is economical because it allows the use of common cuts, it is efficient because it allows to prepare the food in a single pot. The preparation is simple as it does not require an elaborate preparation. The meat is cooked in a pot, seasoned from the beginning, and there is no need to intervene in the process.

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Answer: Option (b) is the correct answer.

Explanation:

When the student is using beads then he is representing atoms and the straws represent the bond between the atoms.

Therefore, when a model is represented by the given manner then it helps in identifying the geometry or shape of the object. This is because it shows how atoms are arranged in space along with their angle.

Therefore, we can conclude that out of the given options the type of scientific model created by the student is a 3-dimensional model because it helps visualize the shape of the molecule.

The type of scientific model created by the student has been the 3-D model for the visualization of shape. Thus, option B is correct.

The water molecule has been the simplest compound that has been consisted of the two hydrogen atoms bonded with an oxygen atom.

The presence of loan pairs to the oxygen atom has been responsible for the distortion in the linear shape, and the molecule has been present in the inverted geometry.

The model prepared by the student has black beads as the representation of the hydrogen atoms, while white beads as the representation of the oxygen atom. The straws have been the representation of the bonds in the structure.

The model prepared has been capable of demonstrating the arrangement of the elements in the 3-D plane and has been able to elucidate the structure of the molecule. Thus, option B is correct.

For more information about the scientific model, refer to the link:

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Answer: Formation of precipitate indicates that there has been a chemical reaction.

Explanation:

Chemical reaction:  It is defined as change in arrangement of the atoms so as to form a new substance.

Mixing of two clear solutions that is lead nitrate and potassium iodide gives out yellow solid precipitate of lead iodide with aqueous solution of potassium nitrate.

[tex]Pb(NO_3)_2(aq)+2KI(aq)\rightarrow PbI_2(s)+2KNO_3(aq)[/tex]

The physical evidence which indicates that chemical reaction has been taken place is formation of yellow solid precipitate of lead iodide ,([tex]PbI_2[/tex]).

Condensation is the reverse change of evaporation.

The phase that is the reverse of evaporation is Condensation.

It is the process by which gas is cooled to any temperature above it freezing point to make it into liquid form.

Stimulants often cause overactive eye movement

Ans (A)

Stimulants are a class of psychoactive drugs that increase the brain activity. They work by acting on the central nervous system and increase the level of mental alertness and impart heightened cognitive functions. Stimulants like nicotine and cocaine cause overactive eye movement.

Answer:

( A). Stimulants is a correct answer.

Explanation:

Stimulants result in the overactive movement of eye.

Stimulants belong to the class psychoactive drugs which cause increase brain function.

Stimulants results in the change of the corneal curvature, and it increases the alertness and energy for a limited period of time.

Ritalin is a class of stimulants known as Methylphenidate and other stimulants like nicotine, cocaine result in overactive movement of the eye.

In this condition, people are not able to concentrate on multiple visual works at the same time.

Answer :

Part (a) :  [tex]3H_2(g)+N_2(g)\rightarrow 2NH_3(g)[/tex]

Part (b) :  Theoretical yield of [tex]NH_3[/tex] = 440.96 g

Part (c) : Percentage yield of ammonia is 90.03 %

Mass of [tex]N_2[/tex] = 475 g

Molar mass of [tex]N_2[/tex] = 28 g/mole

Molar mass of [tex]NH_3[/tex] = 17 g/mole

Experimental yield of [tex]NH_3[/tex] = 397 g

Part (a) :The balanced chemical reaction will be:

[tex]3H_2(g)+N_2(g)\rightarrow 2NH_3(g)[/tex]

Part (b) :To calculate the moles of [tex]N_2[/tex]:

[tex]\text{Moles of }N_2=\frac{\text {Mass of }N_2}{\text{ Molecular mass of }N_2}=\frac{475g}{28g/mole}=16.96moles[/tex]

From the given balanced equation:

1 mole of [tex]N_2[/tex] gas produces 2 moles of [tex]NH_3[/tex]

16.96 moles of [tex]N_2[/tex] gas produces [tex]\frac{2}{1}\times 16.96=33.92[/tex] moles of [tex]NH_3[/tex]

Now we have to calculate the mass of [tex]NH_3[/tex]

[tex]\text{ Mass of }NH_3=\text {Moles of }NH_3\times \text{ Molar mass of }NH_3[/tex]

[tex]\text{ Mass of }NH_3=(33.92moles)\times (17g/mole)=440.96g[/tex]

Therefore, the theoretical yield of [tex]NH_3[/tex] gas = 440.96 g

Part (c) : Percentage yield :

[tex]\% \text{ yield of }NH_3=\frac{\text {Experimental yield of NH_3}}\text {Theoretical yield of }NH_3\times 100[/tex]

[tex]\% \text{ yield of }NH_3=\frac{397g}{440.96g}\times 100=90.03\%[/tex]

Therefore, the % yield of ammonia is 90.03 %

Answer:

Single bond between two carbon atoms.

Explanation:

Let us look at the structure of a hexagon for representation of cyclohexane.

Cyclohexane has six carbons and thus we can place each carbon at the vertices of the hexagon. Now the bond joining each adjacent carbon atoms will be shown by the each side of the hexagon.

The hydrogen atoms are not shown in the structure.

Answer:

Single bond between two carbon atoms.

Explanation:

A mole of water is 18 g. This is the molar mass of H2O (16 for O plus 2 for 2 H).

So In 2.5 g you have 2.5/18 Moles of water. 2.5/18 * Avogadro constant gives you the number of molecules. This should be 8.37 x 10^22 molecules. Good luck!!

  The charge that  alkali metal   form  when they  involve in a chemical reaction with non metals  is  1+

 Explanation

Metals react   by   losing  electron to form a positively charged   ion.

 Alkali metal   has   1  electron  in outermost   sub shell  which  is donated  when they react with non metals  to form  ions with a charge of 1+.

For example sodium (Na)  metal with [Ne] 3S¹   electron configuration   donate  the  1 electron   in outermost subshell (3S) to form Na⁺ ion.

Use Raoult's Law and Henry's Law to calculate the activities and activity coefficients of substances a and b

To calculate the activities and activity coefficients of substances a and b, we can use Raoult's Law for substance a and Henry's Law for substance b.

The activity of substance a can be calculated using:

a = a/*a

The activity of substance b in terms of mole fraction can be calculated using:

b = b/*b

The activity coefficient of substance a can be calculated using:

a = a/Xa

The activity coefficient of substance b can be calculated using:

b = b/Xb

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A) I or Iodine

Iodine is solid which will be in a more fixed position and held closer together making it harder to break apart. It has more electrons and therefore more van der waals forces acting on it, which require more energy to break apart.

answer: a. I

explanation: iodine is a solid meaning the particles are closer together and holds a more fixed position, making it harder to break apart unlike a liquid or gas where the particles are more spread apart

Answer: The correct option is Aluminium.

Explanation: To recover copper from the solution, we require a metal which can easily displace copper from the solution.

The reactions in which metal displaces another metal in a chemical reaction are known as single displacement reactions. These reactions are studied using reactivity series.

[tex]A+BC\rightarrow AC+B[/tex]

A is more reactive than B.

The metal which lie above in the reactivity series will easily displace the metal which lies below in the reactivity series.

From the given options, Aluminium is the most reactive of all the metals and hence, it is the best choice for recovering copper from its solution.