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NCERT Solutions Class 11 Chemistry - The p-Block Elements

NCERT QUESTION- The P-Block Elements 

Ques 7.1: Why are pentahalides more covalent than trihalides?
Ans: In pentahalides, the oxidation state is +5 and in trihalides, the oxidation state is 3. Since the metal ion with a high charge has more polarizing power, pentahalides are more covalent than trihalides.

Ques 7.2: Why is BiH
3 the strongest reducing agent amongst all the hydrides of Group 15 elements?
Ans: As we move down a group, the atomic size increases and the stability of the hydrides of group 15 elements decreases. Since the stability of hydrides decreases on moving from NH3 to BiH3, the reducing character of the hydrides increases on moving from NH3 to BiH3.

Ques 7.3: Why is N
2 less reactive at room temperature?
Ans: The two N atoms in N2 are bonded to each other by very strong triple covalent bonds. The bond dissociation energy of this bond is very high. As a result, N2 is less reactive at room temperature.

Ques 7.4: List the uses of Neon and argon gases.
Ans: Uses of neon gas:
(i) It is mixed with helium to protect electrical equipments from high voltage.
(ii) It is filled in discharge tubes with characteristic colours.
(iii) It is used in beacon lights.

Uses of Argon gas: 
(i) Argon along with nitrogen is used in gas-filled electric lamps. This is because Ar is more inert than N.
(ii) It is usually used to provide an inert temperature in a high metallurgical process.
(iii) It is also used in laboratories to handle air-sensitive substances.

Ques 7.5: How does ammonia react with a solution of Cu
2+?
Ans: NH3 acts as a Lewis base. It donates its electron pair and forms a linkage with metal ion.

NCERT Solutions Class 11 Chemistry - The p-Block Elements

Ques 7.6: What is the covalence of nitrogen in N2O5?
Ans:

NCERT Solutions Class 11 Chemistry - The p-Block Elements                            

From the structure of N2O5, it is evident that the covalence of nitrogen is 4.

Ques 7.7: Bond angle in NCERT Solutions Class 11 Chemistry - The p-Block Elementsis higher than that in PH3. Why?
Ans: In PH3, P is sp3 hybridized. Three orbitals are involved in bonding with three hydrogen atoms and the fourth one contains a lone pair. As lone pair-bond pair repulsion is stronger than bond pair-bond pair repulsion, the tetrahedral shape associated with sp3 bonding is changed to pyramidal. PH3 combines with a proton to form NCERT Solutions Class 11 Chemistry - The p-Block Elementsin which the lone pair is absent. Due to the absence of lone pair inNCERT Solutions Class 11 Chemistry - The p-Block Elements, there is no lone pair-bond pair repulsion. Hence, the bond angle in NCERT Solutions Class 11 Chemistry - The p-Block Elementsis higher than the bond angle in PH3.

NCERT Solutions Class 11 Chemistry - The p-Block Elements

Ques 7.8: What happens when white phosphorus is heated with concentrated NaOH solution in an inert atmosphere of CO2?
Ans: White phosphorous dissolves in boiling NaOH solution (in a CO2 atmosphere) to give phosphine, PH3.

NCERT Solutions Class 11 Chemistry - The p-Block Elements

Ques 7.9: What happens when PCl5 is heated?
Ans: All the bonds that are present in PCl5 are not similar. It has three equatorial and two axial bonds. The equatorial bonds are stronger than the axial ones. Therefore, when PCl5 is heated strongly, it decomposes to form PCl3.

NCERT Solutions Class 11 Chemistry - The p-Block Elements

Ques 7.10: Write a balanced equation for the hydrolytic reaction of PCl5 in heavy water.
Ans:

NCERT Solutions Class 11 Chemistry - The p-Block Elements

Ques 7.11:
 What is the basicity of H3PO4?
Ans: H3PO4

NCERT Solutions Class 11 Chemistry - The p-Block Elements

Since there are three OH groups present in H3PO4, its basicity is three i.e., it is a tribasic acid.

Ques 7.12:
 What happens when H3PO3 is heated?
Ans: H3PO3, on heating, undergoes disproportionation reaction to form PH3 and H3PO4. The oxidation numbers of P in H3PO3, PH3, and H3PO4 are 3, −3, and 5 respectively. As the oxidation number of the same element is decreasing and increasing during a particular reaction, the reaction is a disproportionation reaction.

NCERT Solutions Class 11 Chemistry - The p-Block Elements

Ques 7.13:
 List the important sources of sulphur.
Ans: Sulphur mainly exists in combined form in the earth’s crust primarily as sulphates [gypsum (CaSO4.2H2O), Epsom salt (MgSO4.7H2O), baryte (BaSO4)] and sulphides [galena (PbS), zinc blends (ZnS), copper pyrites (CuFeS2)].

Ques 7.14: Write the order of thermal stability of the hydrides of Group 16 elements.
Ans: The thermal stability of hydrides decreases on moving down the group. This is due to a decrease in the bond dissociation enthalpy (H−E) of hydrides on moving down the group.
Therefore,

NCERT Solutions Class 11 Chemistry - The p-Block Elements

Ques 7.15: Why is H2O a liquid and H2S a gas?
Ans: H2O has oxygen as the central atom. Oxygen has smaller size and higher electronegativity as compared to sulphur. Therefore, there is extensive hydrogen bonding in H2O, which is absent in H2S. Molecules of H2S are held together only by weak Van der Waal’s forces of attraction.
Hence, H2O exists as a liquid while H2S as a solid.

Ques 7.16: Which of the following does not react with oxygen directly?
Zn, Ti, Pt, Fe
Ans: Pt is a noble metal and does not react very easily. All other elements, Zn, Ti, Fe, are quite reactive. Hence, oxygen does not react with platinum (Pt) directly.

Ques 7.17: Complete the following reactions:

(i) C2H4  + O2 →        
(ii) 4Al + 3O2
Ans:

NCERT Solutions Class 11 Chemistry - The p-Block Elements

Ques 7.18: Why does O3 act as a powerful oxidising agent?
Ans: Ozone is not a very stable compound under normal conditions and decomposes readily on heating to give a molecule of oxygen and nascent oxygen. Nascent oxygen, being a free radical, is very reactive.

NCERT Solutions Class 11 Chemistry - The p-Block Elements

Therefore, ozone acts as a powerful oxidising agent.

Ques 7.19: Why do noble gases have comparatively large atomic sizes?
Ans: Noble gases do not form molecules. In case of noble gases, the atomic radii corresponds to Van der Waal’s radii. On the other hand, the atomic radii of other elements correspond to their covalent radii. By definition, Van der Waal’s radii are larger than covalent radii. It is for this reason that noble gases are very large in size as compared to other atoms belonging to the same period.

Ques 7.20: What happens when sulphur dioxide is passed through an aqueous solution of Fe(III) salt?
Ans: SO2 acts as a reducing agent when passed through an aqueous solution containing Fe(III) salt. It reduces Fe(III) to Fe(II) i.e., ferric ions to ferrous ions.

NCERT Solutions Class 11 Chemistry - The p-Block Elements

Ques 7.21: Comment on the nature of two S−O bonds formed in SO2 molecule. Are the two S−O bonds in this molecule equal?
Ans: The electronic configuration of S is 1s2 2s2 2p6 3s2 3p4.
During the formation of SO2, one electron from 3p orbital goes to the 3d orbital and S undergoes sp2 hybridization. Two of these orbitals form sigma bonds with two oxygen atoms and the third contains a lone pair. p-orbital and d-orbital contain an unpaired electron each. One of these electrons forms pπ- pπ bond with one oxygen atom and the other forms pπ- dπ bond with the other oxygen. This is the reason SO2 has a bent structure. Also, it is a resonance hybrid of structures I and II.

NCERT Solutions Class 11 Chemistry - The p-Block Elements

Both S−O bonds are equal in length (143 pm) and have a multiple bond character.

Ques 7.22: Give the formula and describe the structure of a noble gas species which is isostructural with:
(i) NCERT Solutions Class 11 Chemistry - The p-Block Elements 
(ii) NCERT Solutions Class 11 Chemistry - The p-Block Elements 
(iii) NCERT Solutions Class 11 Chemistry - The p-Block Elements
Ans: (i)
XeF
4 is isoelectronic with NCERT Solutions Class 11 Chemistry - The p-Block Elementsand has square planar geometry.

NCERT Solutions Class 11 Chemistry - The p-Block Elements

(ii)
XeF2 is isoelectronic to NCERT Solutions Class 11 Chemistry - The p-Block Elementsand has a linear structure.

NCERT Solutions Class 11 Chemistry - The p-Block Elements

(iii) 
XeO3 is isostructural toNCERT Solutions Class 11 Chemistry - The p-Block Elements and has a pyramidal molecular structure.

NCERT Solutions Class 11 Chemistry - The p-Block Elements

Ques 7.23: 
Which one of the following does not exist?
(i) XeOF4 
(ii) NeF2    
(iii) XeF
(iv) XeF6
Ans: NeFdoes not exist.

Ques 7.24: Write two uses of ClO
2.
Ans: Uses of ClO2:
(i) It is used for purifying water.
(ii) It is used as a bleaching agent.

Ques 7.25: How are XeO
3 and XeOF4 prepared?
Ans: (i) XeO3 can be prepared in two ways as shown.

NCERT Solutions Class 11 Chemistry - The p-Block Elements

NCERT Solutions Class 11 Chemistry - The p-Block Elements
(ii) XeOF4 can be prepared using XeF6.

NCERT Solutions Class 11 Chemistry - The p-Block Elements

Ques 7.26: With what neutral molecule is ClO isoelectronic? Is that molecule a Lewis base?

Ans: ClO− is isoelectronic to ClF. Also, both species contain 26 electrons in all as shown.
Total electrons ClO = 17 + 8 + 1 = 26
In ClF = 17+9 = 26
ClF acts like a Lewis base as it accepts electrons from F to form ClF3.

Ques 7.27: Give two examples to show the anomalous behaviour of fluorine.
Ans: Anomalous behaviour of fluorine
(i) It forms only one oxoacid as compared to other halogens that form a number of oxoacids.
(ii) Ionisation enthalpy, electronegativity, and electrode potential of fluorine are much higher than expected.

Ques 7.28: Sea is the greatest source of some halogens. Comment.

Ans: Sea water contains chlorides, bromides, and iodides of Na, K, Mg, and Ca. However, it primarily contains NaCl. The deposits of dried up sea beds contain sodium chloride and carnallite, KCl.MgCl2.6H2O. Marine life also contains iodine in their systems. For example, sea weeds contain upto 0.5% iodine as sodium iodide. Thus, sea is the greatest source of halogens.

Ques 7.29: Give the reason for bleaching action of Cl
2.
Ans: When chlorine reacts with water, it produces nascent oxygen. This nascent oxygen then combines with the coloured substances present in the organic matter to oxide them into colourless substances.

NCERT Solutions Class 11 Chemistry - The p-Block Elements
Coloured substances + [O] → Oxidized colourless substance

Ques 7.30: Name two poisonous gases which can be prepared from chlorine gas.
Ans: Two poisonous gases that can be prepared from chlorine gas are
(i) Phosgene (COCl2)
(ii) Mustard gas (ClCH2CH2SCH2CH2Cl)

Ques 7.31: Why is ICl more reactive than I
2?
Ans: ICl is more reactive than I2 because I−Cl bond in ICl is weaker than I−I bond in I2.

Ques 7.32: Why is helium used in diving apparatus?

Ans: Air contains a large amount of nitrogen and the solubility of gases in liquids increases with increase in pressure. When sea divers dive deep into the sea, large amount of nitrogen dissolves in their blood. When they come back to the surface, solubility of nitrogen decreases and it separates from the blood and forms small air bubbles. This leads to a dangerous medical condition called bends. Therefore, air in oxygen cylinders used for diving is diluted with helium gas. This is done as He is sparingly less soluble in blood.

Ques 7.33: Balance the following equation: XeF6 + H2O → XeO2F2 + HF
Ans: Balanced equation
XeF6 + 2 H2O → XeO2F2  + 4 HF

Ques 7.34: Why has it been difficult to study the chemistry of radon?

Ans: It is difficult to study the chemistry of radon because it is a radioactive substance having a half-life of only 3.82 days. Also, compounds of radon such as RnFhave not been isolated. They have only been identified.

Ques 7.35: Why has it been difficult to study the chemistry of radon?
Ans: It is difficult to study the chemistry of radon because it is a radioactive substance having a half-life of only 3.82 days. Also, compounds of radon such as RnFhave not been isolated. They have only been identified.

Ques 7.36: Why does the reactivity of nitrogen differ from phosphorus?
Ans: Nitrogen is chemically less reactive. This is because of the high stability of its molecule, N2. In N2, the two nitrogen atoms form a triple bond. This triple bond has very high bond strength, which is very difficult to break. It is because of nitrogen’s small size that it is able to form pπ−pπ bonds with itself. This property is not exhibited by atoms such as phosphorus. Thus, phosphorus is more reactive than nitrogen.

Ques 7.37: Discuss the trends in chemical reactivity of group 15 elements.
Ans: General trends in chemical properties of group − 15
(i) Reactivity towards hydrogen:
The elements of group 15 react with hydrogen to form hydrides of type EH3, where E = N, P, As, Sb, or Bi. The stability of hydrides decreases on moving down from NH3 to BiH3.
(ii) Reactivity towards oxygen:
The elements of group 15 form two types of oxides: E2O3 and E2O5, where E = N, P, As, Sb, or Bi. The oxide with the element in the higher oxidation state is more acidic than the other. However, the acidic character decreases on moving down a group.
(iii) Reactivity towards halogens:
The group 15 elements react with halogens to form two series of salts: EX3 and EX5. However, nitrogen does not form NXas it lacks the d-orbital. All trihalides (except NX3) are stable.
(iv) Reactivity towards metals:
The group 15 elements react with metals to form binary compounds in which metals exhibit −3 oxidation states.

Ques 7.38: Why does NH3 form hydrogen bond but PH3 does not?
Ans: Nitrogen is highly electronegative as compared to phosphorus. This causes a greater attraction of electrons towards nitrogen in NH3 than towards phosphorus in PH3. Hence, the extent of hydrogen bonding in PH3 is very less as compared to NH3.

Ques 7.39: How is nitrogen prepared in the laboratory? Write the chemical equations of the reactions involved.
Ans: An aqueous solution of ammonium chloride is treated with sodium nitrite.

NCERT Solutions Class 11 Chemistry - The p-Block Elements

NO and HNO3 are produced in small amounts. These are impurities that can be removed on passing nitrogen gas through aqueous sulphuric acid, containing potassium dichromate.

Ques 7.40: How is ammonia manufactured industrially?
Ans: Ammonia is prepared on a large-scale by the Haber’s process.

NCERT Solutions Class 11 Chemistry - The p-Block Elements
The optimum conditions for manufacturing ammonia are:
(i) Pressure (around 200 × 105 Pa)
(ii) Temperature (4700 K)
(iii) Catalyst such as iron oxide with small amounts of Al2O3 and K2O

Fig: Haber`s processFig: Haber's processQues 7.41: Illustrate how copper metal can give different products on reaction with HNO3.
Ans: Concentrated nitric acid is a strong oxidizing agent. It is used for oxidizing most metals. The products of oxidation depend on the concentration of the acid, temperature, and also on the material undergoing oxidation.

NCERT Solutions Class 11 Chemistry - The p-Block Elements

NCERT Solutions Class 11 Chemistry - The p-Block Elements

Ques 7.42: Why are halogens coloured?
Ans: Almost all halogens are coloured. This is because halogens absorb radiations in the visible region. This results in the excitation of valence electrons to a higher energy region. Since the amount of energy required for excitation differs for each halogen, each halogen displays a different colour.

Ques 7.43: The HNH angle value is higher than HPH, HAsH and HSbH angles. Why? [Hint: Can be explained on the basis of sp3 hybridisation in NH3 and only s−p bonding between hydrogen and other elements of the group].
Ans: Hydride NH3 PH3 AsH3 SbH3
H−M−H angle 107° 92° 91° 90°
The above trend in the H−M−H bond angle can be explained on the basis of the electronegativity of the central atom. Since nitrogen is highly electronegative, there is high electron density around nitrogen. This causes greater repulsion between the electron pairs around nitrogen, resulting in maximum bond angle. We know that electronegativity decreases on moving down a group. Consequently, the repulsive interactions between the electron pairs decrease, thereby decreasing the H−M−H bond angle.

Ques 7.44: Why does R
3P=O exist but R3N=O does not (R = alkyl group)?
Ans: N (unlike P) lacks the d-orbital. This restricts nitrogen to expand its coordination number beyond four. Hence, R3N=O does not exist.

Ques 7.45: 
Write balanced equations for the following:
(i) NaCl is heated with sulphuric acid in the presence of MnO2.
(ii) Chlorine gas is passed into a solution of NaI in water.
Ans: (i)NCERT Solutions Class 11 Chemistry - The p-Block Elements
(ii) NCERT Solutions Class 11 Chemistry - The p-Block Elements

Ques 7.46: What are the oxidation states of phosphorus in the following:

(i) H3PO3 
(ii) PCl3  
(iii) Ca3P
(iv) Na3PO4 
(v) POF3?
Ans: Let the oxidation state of p be x.
(i) H3PO3
NCERT Solutions Class 11 Chemistry - The p-Block Elements

(ii) PCl3
NCERT Solutions Class 11 Chemistry - The p-Block Elements

(iii) Ca3P2
NCERT Solutions Class 11 Chemistry - The p-Block Elements

(iv) Na3PO4
NCERT Solutions Class 11 Chemistry - The p-Block Elements

(v) POF3
NCERT Solutions Class 11 Chemistry - The p-Block Elements

Ques 7.47: Write main differences between the properties of white phosphorus and red phosphorus.
Ans:

White phosphorus

Red Phosphorus

It is a soft and waxy solid. It possesses a garlic smell.

It is a hard and crystalline solid, without any smell.

It is poisonous.

It is non-poisonous.

It is insoluble in water but soluble in carbon disulphide.

It is insoluble in both water and carbon disulphide.

It undergoes spontaneous combustion in air.

It is relatively less reactive.

In both solid and vapour states, it exists as a P4 molecule.

  NCERT Solutions Class 11 Chemistry - The p-Block Elements

It exists as a chain of tetrahedral P4 units.

NCERT Solutions Class 11 Chemistry - The p-Block Elements


Ques 7.48: Why does nitrogen show catenation properties less than phosphorus?
Ans: Catenation is much more common in phosphorous compounds than in nitrogen compounds. This is because of the relative weakness of the N−N single bond as compared to the P−P single bond. Since nitrogen atom is smaller, there is greater repulsion of electron density of two nitrogen atoms, thereby weakening the N−N single bond.

Ques 7.49: Give the disproportionation reaction of H3PO3.
Ans: On heating, orthophosphorus acid (H3PO3) disproportionates to give orthophosphoric acid (H3PO4) and phosphine (PH3). The oxidation states of P in various species involved in the reaction are mentioned below.

NCERT Solutions Class 11 Chemistry - The p-Block Elements

Ques 7.50: Can PCl5 act as an oxidising as well as a reducing agent? Justify.
Ans: PCl5 can only act as an oxidizing agent. The highest oxidation state that P can show is +5. In PCl5, phosphorus is in its highest oxidation state (+5). However, it can decrease its oxidation state and act as an oxidizing agent.

Fig: Structure of PCl5Fig: Structure of PCl5
Ques 7.50: Justify the placement of O, S, Se, Te and Po in the same group of the periodic table in terms of electronic configuration, oxidation state and hydride formation.
Ans: The elements of group 16 are collectively called chalcogens.
(i) Elements of group 16 have six valence electrons each. The general electronic configuration of these elements is ns2 np4, where n varies from 2 to 6.
(ii) Oxidation state:
As these elements have six valence electrons (ns2 np4), they should display an oxidation state of −2. However, only oxygen predominantly shows the oxidation state of −2 owing to its high electronegativity. It also exhibits the oxidation state of −1 (H2O2), zero (O2), and +2 (OF2). However, the stability of the −2 oxidation state decreases on moving down a group due to a decrease in the electronegativity of the elements. The heavier elements of the group show an oxidation state of +2, +4, and +6 due to the availability of d-orbitals.

(iii) Formation of hydrides:
These elements form hydrides of formula H2E, where E = O, S, Se, Te, PO. Oxygen and sulphur also form hydrides of type H2E2. These hydrides are quite volatile in nature.

Ques 7.51: What inspired N. Bartlett for carrying out reaction between Xe and PtF
6?
Ans: Neil Bartlett initially carried out a reaction between oxygen and PtF6. This resulted in the formation of a red compound, NCERT Solutions Class 11 Chemistry - The p-Block Elements.

Later, he realized that the first ionization energy of oxygen (1175 kJ/mol) and Xe (1170 kJ/mol) is almost the same. Thus, he tried to prepare a compound with Xe and PtF6. He was successful and a red-coloured compound, NCERT Solutions Class 11 Chemistry - The p-Block Elementswas formed.

Ques 7.52: How can you prepare Cl2 from HCl and HCl from Cl2? Write reactions only.
Ans: (i) Cl2 can be prepared from HCl by Deacon’s process.

NCERT Solutions Class 11 Chemistry - The p-Block Elements
(ii) HCl can be prepared from Cl2 on treating it with water.

NCERT Solutions Class 11 Chemistry - The p-Block Elements

Ques 7.53: Which aerosols deplete ozone?
Ans: Freons or chlorofluorocarbons (CFCs) are aerosols that accelerate the depletion of ozone. In the presence of ultraviolet radiations, molecules of CFCs break down to form chlorine-free radicals that combine with ozone to form oxygen.

Ques 7.54: Describe the manufacture of H2SO4 by contact process?
Ans: Sulphuric acid is manufactured by the contact process. It involves the following steps:

Fig: Contact ProcessFig: Contact ProcessStep (i):
Sulphur or sulphide ores are burnt in air to form SO2.
Step (ii):
By a reaction with oxygen, SO2 is converted into SO3 in the presence of V2O5 as a catalyst.

NCERT Solutions Class 11 Chemistry - The p-Block Elements
Step (iii):
SO3 produced is absorbed on H2SO4 to give H2S2O7 (oleum).

NCERT Solutions Class 11 Chemistry - The p-Block Elements

This oleum is then diluted to obtain H2SO4 of the desired concentration.

In practice, the plant is operated at 2 bar (pressure) and 720 K (temperature). The sulphuric acid thus obtained is 96-98% pure.

Ques 7.55: How is SO2 an air pollutant?
Ans: Sulphur dioxide causes harm to the environment in many ways:
1. It combines with water vapour present in the atmosphere to form sulphuric acid. This causes acid rain. Acid rain damages soil, plants, and buildings, especially those made of marble.

2. Even in very low concentrations, SO2 causes irritation in the respiratory tract. It causes throat and eye irritation and can also affect the larynx to cause breathlessness.

3. It is extremely harmful to plants. Plants exposed to sulphur dioxide for a long time lose colour from their leaves. This condition is known as chlorosis. This happens because the formation of chlorophyll is affected by the presence of sulphur dioxide.

Ques 7.56: Write the reactions of F2 and Cl2 with water.
Ans:

(i)  NCERT Solutions Class 11 Chemistry - The p-Block Elements

 (ii)  NCERT Solutions Class 11 Chemistry - The p-Block Elements

Ques 7.57: Explain why fluorine forms only one oxoacid, HOF.
Ans: Fluorine forms only one oxoacid i.e., HOF because of its high electronegativity and small size.

Ques 7.58: Explain why inspite of nearly the same electronegativity, oxygen forms hydrogen bonding while chlorine does not.
Ans: Both chlorine and oxygen have almost the same electronegativity values, but chlorine rarely forms hydrogen bonding. This is because in comparison to chlorine, oxygen has a smaller size and as a result, a higher electron density per unit volume.

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FAQs on NCERT Solutions Class 11 Chemistry - The p-Block Elements

1. What are the properties of group 15 elements?
Ans. Group 15 elements, also known as the nitrogen family, have the following properties: - They have 5 valence electrons in their outermost shell. - They form covalent compounds and share electrons with other elements. - They can exhibit multiple oxidation states, with nitrogen commonly having -3, +3, and +5 oxidation states. - They have a tendency to form three covalent bonds. - Their compounds are often used as fertilizers, explosives, and in the production of various industrial chemicals.
2. How does the reactivity of group 16 elements vary?
Ans. The reactivity of group 16 elements, also known as the oxygen family, varies as we move down the group: - Oxygen (O) is highly reactive and forms compounds with most elements. - Sulfur (S) is less reactive compared to oxygen but can still form compounds with many elements. - Selenium (Se) and tellurium (Te) are less reactive than sulfur and have limited reactivity with other elements. - Polonium (Po) is the least reactive element in this group and exhibits limited reactivity.
3. What are the uses of group 17 elements?
Ans. Group 17 elements, also known as the halogens, have various uses: - Chlorine (Cl) is used as a disinfectant in water treatment, as a bleaching agent, and in the production of PVC. - Bromine (Br) is used in flame retardants, pharmaceuticals, and in the production of dyes. - Iodine (I) is used as an antiseptic, in the production of dyes, and in the synthesis of pharmaceuticals. - Fluorine (F) is used in toothpaste and water fluoridation for dental health.
4. How do the physical properties of group 18 elements differ from other groups?
Ans. Group 18 elements, also known as the noble gases, have unique physical properties compared to other elements: - They have very low boiling and melting points. - They exist as monatomic gases at room temperature and pressure. - They have very low reactivity and do not readily form compounds with other elements. - They have a full outermost electron shell, making them stable and inert.
5. How are group 15-18 elements important in daily life?
Ans. Group 15-18 elements have significant importance in daily life: - Group 15 elements are essential components of fertilizers, which are crucial for agricultural practices. - Group 16 elements are used in the production of sulfuric acid, which is widely utilized in various industries. - Group 17 elements are used in water treatment, disinfectants, and various industrial processes. - Group 18 elements, particularly helium, neon, and argon, are used in various applications like lighting, lasers, and as coolants in cryogenic systems.
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