Which element has the same number of valence electrons as phosphorus? which element has the same number of valence electrons as phosphorus? bi in te rb?

Did your response contain the following points? You may have discussed additional points that are not listed here.  

Both carbohydrate and fat molecules release energy when cells break them down.

Many carbohydrates contain fiber, which the body cannot break down but which can help the digestive system function.

Sterols are important lipids that cells can convert into compounds the body needs, such as vitamins, some hormones, and bile salts.

Phospholipids are important structural components of cells.

The correct answer is 'a'. In covalent bonds, two atoms share electrons, while in ionic bonds, two atoms of opposite charge are attracted to each other.

In a covalent bond, two atoms share electrons to achieve a stable electron configuration. This sharing of electrons allows both atoms to fill their outermost energy levels and become more stable. An example of a covalent bond is the bond between two hydrogen atoms in a hydrogen molecule . In this case, both hydrogen atoms share their single electron to form a stable molecule.

On the other hand, in an ionic bond, two atoms of opposite charge are attracted to each other due to the transfer of electrons. One atom loses electrons to become positively charged (cation), while the other atom gains electrons to become negatively charged (anion). These oppositely charged ions are then attracted to each other, forming an ionic bond.Thus, the correct option is 'A'.

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Answer: The net chemical equation is written below.

Explanation:

When copper metal displaces an aqueous solution of silver nitrate, it leads to the formation of silver metal and aqueous copper nitrate solution.

This reaction is an example of single displacement reaction.

Net ionic equation of any reaction does not include any spectator ions.

Spectator ions are defined as the ions which does not get involved in a chemical equation. They are found on both the sides of the chemical reaction when it is present in ionic form.

The chemical equation for the reaction of copper metal and silver nitrate is given as:

[tex]Cu(s)+2AgNO_3(aq.)\rightarrow Cu(NO_3)_2(aq.)+2Ag(s)[/tex]

Ionic form of the above equation follows

[tex]Cu(s)+2Ag^+(aq.)+2NO_3^-(aq.)\rightarrow Cu^{2+}(aq.)+2NO_3^-(aq.)+2Ag(s)[/tex]

As, nitrate ions are present on both the sides of the reaction. Thus, it will not be present in the net ionic equation and are spectator ions.

The net ionic equation for the above reaction follows:

[tex]Cu(s)+2Ag^+(aq.)\rightarrow Cu^{2+}(aq.)+2Ag(s)[/tex]

Hence, the net ionic equation is written above.

The isotopes which are radioactive in nature is said to be radioisotopes. Radioisotope has  unstable atomic nucleus and to attain a stable form, they emit particles and energy.

Since, radioisotopes are very reactive in nature as they are unstable and hence, they decay to form other particles. Energy may be released in the form of alpha particles (helium nuclei), beta particles, (electrons or positrons), or gamma particles (electromagnetic energy).

Hence, incorrect statement is: radioisotope is stable.

Answer: if delta h and delta s are both negative

Explanation: you’re welcome

Answer: Option (b) is the correct answer.

Explanation:

A chemical reaction is a reaction that causes change in chemical composition of a substance. This change occurs due to the involvement of outer electrons.

Whereas a nuclear reaction is a reaction in which particles in the nucleus, that is, protons and neutrons participate in order to form a new compound.

For example, [tex]^{6}_{3}Li + ^{2}_{1}H \rightarrow 2^{4}_{2}He[/tex]

Both chemical and nuclear reactions are able to release energy in certain reactions and they both are able to form stable atoms.

Thus, we can conclude that the statement only chemical reactions result in atom stability regarding nuclear and chemical reactions is not true.

Answer: The correct answer is Option D.

Explanation:

Gamma radiations are released when an atom undergoes gamma decay. During this decay process, a unstable nuclei gives off excess energy through a spontaneous electromagnetic process and it further releases [tex]\gamma -radiations[/tex]. The radiations released does not carry any charge and hence are electrically neutral.

Atomic number of the  atom going this decay does not change.

[tex]_Z^A\textrm{X}^*\rightarrow _Z^A\textrm{X}+_0^0\gamma[/tex]

Thus, the correct answer is Option D.

Answer:

The right answer is A

Explanation:

Final answer:

In a carbon-oxygen bond, oxygen, being more electronegative, pulls the bonding electrons closer, resulting in oxygen having a slight negative charge and carbon a slight positive charge, forming a polar covalent bond.

Explanation:

When a carbon atom bonds with an oxygen atom, the distribution of charge between them reflects their difference in electronegativity. Oxygen, with an electronegativity of 3.5, has a stronger pull on the bonding electron pairs than carbon, which has an electronegativity of 2.5. This results in the electrons being drawn more towards oxygen, making the oxygen atom slightly negatively charged (δ-) and the carbon atom slightly positively charged (δ+). The carbon-to-oxygen double bond, being more polar than a carbon-to-oxygen single bond, emphasizes this effect, making the oxygen even more electronegative in comparison to carbon. Therefore, in this bond, oxygen ends up with a partial negative charge, while carbon acquires a partial positive charge, exemplifying a polar covalent bond.

Answer : The volume of a piece of metal is [tex]2.01cm^3[/tex]

Explanation :

Density : It is defined as the mass contained per unit volume.

Formula used for density :

[tex]Density=\frac{Mass}{Volume}[/tex]

Given :

Mass of a piece of metal = 9.37 grams

Density of metal = [tex]4.66g/cm^3[/tex]

Now put all the given values in the above formula, we get the volume of a piece of metal.

[tex]4.66g/cm^3=\frac{9.37g}{Volume}[/tex]

[tex]Volume=\frac{9.37g}{4.66g/cm^3}[/tex]

[tex]Volume=2.01cm^3[/tex]

Therefore, the volume of a piece of metal is [tex]2.01cm^3[/tex]

2HI(aq)+Ba(OH)2(aq) ----> 2H2O(l) + BaI2(aq)

The atom 'x' has valency 3 based on xCl3 formula. The carbonate ion has a charge of -2. Hence, to balance the charges, the formula for 'x' carbonate should be X2(CO3)3.

The hypothetical atom is represented as 'x'. The formula provided, xCl3, indicates that there are three chloride ions for every atom of 'x'. This suggests that the valency of 'x' is 3. Assuming that 'x' is a metal, when it forms a carbonate, it will combine with the carbonate ion (CO3) which has a charge of -2.

As 'x' has a valency of 3 and carbonate has a charge of -2, to balance the charges the formula for 'x' carbonate would be X2(CO3)3. This formula implies there are two atoms of 'x' for every three carbonate ions in the compound. Therefore, the molecular formula for 'x' carbonate is X2(CO3)3.

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The treatment is explained by temperature in the first substance, concentration in substance 2, and surface area in substance 3. Thus, option D is accurate.

The rate of the reactions is concerned with the temperature concentration, surface area, etc. Their involvement increases and decreases the reaction rate of the substance present in the reaction mixture.

An increase in temperature by heat increases rate, and ice decreases temperature hence decreasing rate. The second substance starts with an increase in the concentration and the third by increasing surface area.

Therefore, option D. is the treatment for the substances.

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Answer is: nonmetals.

Nonmetals are far right at Periodic table, except hydrogen (H).

The nonmetals are divided into two categories: reactive nonmetals and noble gases.

The type of bond in nonmetal is covalent bond, there is no free electrons, so they do not conduct heat.

Intermolecular forces are weak, so they have low boiling points.

Nonmetals have low electrical and thermal conductivity .

Element x would most likely be found on the right side of the periodic table, where nonmetals are located.

The periodic table is a tabular arrangement of chemical elements, organized by increasing atomic number and similar chemical properties. Elements are grouped into rows (periods) and columns (groups or families) based on their electron configurations. This table provides a systematic way to understand and study the properties and relationships of all known elements.

Based on the given information, Element x is a nonmetal that is a poor conductor of heat, has a low boiling point, and is a brittle solid at room temperature. Nonmetals are typically found on the right side of the periodic table. Therefore, Element x would most likely be found on the right side of the periodic table, where nonmetals are located.

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Answer : The balanced chemical reaction will be,

[tex]2Na+2H_2O\rightarrow 2NaOH+H_2[/tex]

Explanation :

Balanced chemical reaction : It is defined as the number of atoms of individual elements present on reactant side must be equal to the product side.

The given unbalanced chemical reaction is,

[tex]a_0Na+a_1H_2O\rightarrow a_2NaOH+a_3H_2[/tex]

This chemical reaction is an unbalanced reaction because in this reaction, the number of atoms of hydrogen are not balanced while all the atoms are balanced.

In order to balanced the chemical reaction, the coefficient 2 is put before the [tex]Na,H_2O\text{ and }NaOH[/tex]

Thus, the balanced chemical reaction will be,

[tex]2Na+2H_2O\rightarrow 2NaOH+H_2[/tex]

Peroxisomes, an organelle found in both animal and plant cells, produce hydrogen peroxide (H2O2) as a by-product during detoxification and metabolic processes. They also safely break down H2O2 into water and oxygen, shielding the rest of the cell from this compound's potential toxicity.

The organelle that produces H2O2 (hydrogen peroxide) as a by-product is the peroxisome. Peroxisomes are small, round organelles enclosed by single membranes. They perform oxidation reactions that break down fatty acids and amino acids, and also detoxify many poisons that may enter the body. During these oxidation reactions, they release H2O2, which can damage cells. However, these reactions are confined to peroxisomes, where enzymes safely break down the H2O2 into oxygen and water. This makes peroxisomes crucial for neutralizing harmful toxins in cells.

For example, alcohol is detoxified by peroxisomes in liver cells. Glyoxysomes, which are specialized peroxisomes in plants, play a role in converting stored fats into sugars. Therefore, peroxisomes fulfill numerous crucial roles in both animal and plant cells which includes producing and then safely breaking down H2O2.

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The peroxisome is the organelle that produces H2O2 as a by-product during oxidation reactions and detoxification processes, but contains enzymes to convert it into harmless substances.

The organelle in question that produces hydrogen peroxide (H2O2) as a by-product is the peroxisome. Peroxisomes perform a variety of metabolic processes, primarily oxidizing fatty acids and detoxifying harmful substances. The toxic by-product of these reactions is H2O2, which peroxisomes contain within themselves to prevent cellular damage. Enzymes such as catalase within peroxisomes convert H2O2 into water and oxygen, mitigating the potentially harmful effects of hydrogen peroxide on the cell.

Final answer:

The coefficient on nitrogen in the balanced equation is 1.

Explanation:

When nitrogen gas reacts with hydrogen gas to form ammonia, the coefficient on nitrogen in the balanced equation is 1. The balanced chemical equation for this reaction is: 3H2 (g) + N2 (g) → 2NH3 (g). In the equilibrium constant expression, the partial pressure of nitrogen is raised to the first power due to the coefficient 1. According to Dalton's Atomic Theory, one of its postulates states that each compound is composed of a fixed ratio of the number of its individual atoms. This is where the Law of Definite Proportions is coming from. In order to obey this law, you must balance the equation such that the number of moles of each element in a reaction is equal for both sides of the reaction. Thus, the balance reaction is

N₂ + 3 H₂  → 2 NH₃

Thus, the coefficient of Nitrogen is 1.

Explanation:

The given chemical equation is as follows.

    [tex]H_{2}SO_{4} + NaCN \rightarrow HCN + Na_{2}SO_{4}[/tex]

Number of reactant atoms are as follows.

Number of product atoms are as follows.

Thus, in order to balance the equation, multiply NaCN by 2 on the reactant side and multiply HCN by 2 on the product side. Therefore, the balanced chemical equation will be as follows.

      [tex]H_{2}SO_{4} +2NaCN \rightarrow 2HCN + Na_{2}SO_{4}[/tex]

Hence, we need [tex]2 \times 3.6[/tex]  = 7.2 moles of NaCN to react completely with 3.6 moles of [tex]H_{2}SO_{4}[/tex].

Explanation:

When we increase temperature of a substance then bond between the atoms will start to break and the molecules will move apart from each other. As a result, there will be increase in number of collisions between the molecules. Thus, reaction will occur at a faster rate.

Also,   K.E = [tex]\frac{3}{2}kT[/tex]

where          k = boltzmann constant

                    T = temperature

Hence, kinetic energy is proportional to temperature. So, more is the temperature more will be the kinetic energy. Therefore, more will be the rate of reaction.

Answer:

143

Explanation:

Thinking process:

The equation is balanced by balancing the charges. This gives:

235 + 1 = 90 + A + 3(1)

236 =    90 + A + 3

236  = 93 + A

     A = 236 - 93

         = 143

therefore, the value of A is 143