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Chemistry 1 Marks Question

The d- and f-Block Elements · Rajasthan Board (RBSE) STD 12 Science (Rajasthan - English Medium). 46 questions.

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Question 11 Mark
Give reasons why $Zn , Cd , Hg$ and Cn are not transition elements.
Answer
The reason why $Zn , Cd , Hg$ and Cn are not considered transition elements is because of their fully filled d-orbitals.
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Question 21 Mark
'Spin only' magnetic for $Cu _{(\rho q )}^{+2}$ ion. Calculate the magnetic moment.
Answer
$\mu=\sqrt{n(n+2)}$ B.M. $=\sqrt{1(1+2)}=\sqrt{3}$ B.M. $=1.7 B . M$.
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Question 41 Mark
$Zn ^{2+}$ is diamagnetic while $Cu ^{2+}$ is paramagnetic, why?
Answer
$Zn ^{+2}\left(3 d^{10}\right)$ does not have a single unpaired electron whereas $Cu ^{2+}\left(3 d^9\right)$ has one unpaired electron present, hence $Zn ^{2+}$ is diamagnetic but $Cu ^{2+}$ is paramagnetic.
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Question 51 Mark
Which of the following oxides will have maximum covalent property? $SC _2 O _3, TiO _2, Mn _2 O _7$ and $V _2 O _5$.
Answer
$Mn _2 O _7$
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Question 61 Mark
Name those elements of the first transition series which show only one type of oxidation state.
Answer
Sc and Zn .
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Question 71 Mark
Write the electronic configuration of $Ni ^{2+}$.
Answer
$Ni ^{2+}=1 s^2 2 s^2 2 p ^6 3 s^2 3 p ^6 3 d^8 4 s^0$
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Question 91 Mark
Actinoid contraction is more than lanthanoid contraction, why?
Answer
Due to weak shielding effect of 5 f electrons, actinoid contraction is more than lanthanoid contraction.
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Question 101 Mark
Instruments used in surgery are cleaned by $KMnO _4$, why?
Answer
Due to the germicidal properties of $KMnO _4$, it can be treated surgically. That is why it is used to clean the equipment.
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Question 121 Mark
What are parauranium elements?
Answer
Radioactive and artificial elements U are called parauranium elements.
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Question 131 Mark
Write the maximum oxidation state displayed by actinoids.
Answer
Actinoids exhibit maximum oxidation state of $+7$.
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Question 141 Mark
$La ( OH )_3$ is more basic than $Lu ( OH )_3$, why?
Answer
From La to Lu , the alkaline nature of hydroxide decreases because their ionic radius decreases, hence $La ( OH )_3$ is more basic than $Lu ( OH )_3$.
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Question 151 Mark
What is called lanthanoid contraction?
Answer
As the atomic number increases from La to Lu , there is a decrease in the atomic and ionic radii, this is called lanthanoid contraction.
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Question 171 Mark
Write equations showing the products formed when dichromate ion is reacted with hyrogen peroxide.
Answer
$Cr _2 O _7^{2-}+4 H _2 O _2+2 \stackrel{+}{ H } \rightarrow 2 CrO _5+5 H _2 O$
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Question 181 Mark
Explain the use of Bayer reagent.
Answer
Unsaturated is tested with Bayer's reagent (1\% alkaline $KMnO _4$ ).
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Question 191 Mark
Write the products formed when KI solution is treated with acidic and basic $KMnO _4$.
Answer
When KI solution is reacted with acidic $KMnO _4$, iodine $\left( I _2\right)$ is obtained and when it is reacted with alkaline $KMnO _4$, potassium iodate $\left( KIO _3\right)$ is obtained.
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Question 201 Mark
Orange solution of $K _2 Cr _2 O _7$ contains strong alkali $( NaOH$ or KOH $)$ the solution turns yellow. Why?
Answer
On adding strong alkali to the orange solution of $K _2 Cr _2 O _7$, chromate is formed, hence the solution turns yellow.
$
\underset{\text { orange }}{Cr_2 O_7^{2-}}+2 \overline{O} H \rightarrow \underset{\text { yellow }}{2 CrO_4^{2-}}+H_2 O
$
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Question 221 Mark
Write the equation of disproportionation of $Mn ^{ VI }$
Answer
$3 \stackrel{ VI }{ MnO _4^{2-}}+4 H ^{+} \rightarrow 2 \stackrel{ VII }{ Mn O _4^{-}}+\stackrel{ VV }{ MnO _2}+2 H _2 O$
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Question 251 Mark
Transition metals form alloys, why?
Answer
Due to similarly in radii of post-transition elements and their characteristic properties, these alloys are easily made.
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Question 281 Mark
Which has the lowest melting point among transition elements?
Answer
Mercury ( Hg ) has the lowest melting point among post-transition elements.
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Question 291 Mark
$Cu , Ag$ and Au have $d ^{10}$ configurations, yet they are transition elements. Why?
Answer
$Cu , Ag$ and Au cations do not have $d ^{10}$ configuration, hence they are transition elements.
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Question 301 Mark
Arrange $CrO , Cr _2 O _3, CrO _2$ and $CrO _3$ in increasing order of acidic properties.
Answer
$CrO < Cr _2 O _3< CrO _2< CrO _3$
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Question 311 Mark
Which are the volatile metals in a $d$-block and why?
Answer
$Zn , Cd$ and Hg volatile metals in d-block because their melting and boiling points are low.
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Question 331 Mark
What is the general oxidation state of 3d series of transition elements?
Answer
The general oxidation state of the 3d series of post-transition elements is +2 .
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Question 351 Mark
Name the oxometal anions of the first series of the transition metals in which the metal exhibits the oxidation state equal to its group number.
Answer
Following are the oxo-metal ions of the first transition series in which the metal exhibit an oxidation state equal to the group number of the transition series.
Vanadate $VO _3^{-}, V (+5) \quad$ 5th group
Chromate $CrO _4^{2-}, Cr (+6) \quad$ 6th group
Permanganate $MnO _4^{-}, Mn (+7) \quad$ 7th group
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Question 361 Mark
Write the electronic configurations of the elements with the atomic numbers 61, 91, 101, and 109.
Answer
Atomic Number (Element)Electronic Configuration
61 (Pm)$[ Xe ] 4 f^5 6 s^2$
91 (Pa)$[ Rn ] 5 f^2 6 d^1 7 s^2$
101 (Md)$[ Rn ] 5 d^{13} 7 s^2$
109 (Unu)$[ Rn ] 5 f^{14} 6 d^7 7 s^2$
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Question 371 Mark
Which is the last element in the series of the actinoids? Write the electronic configuration of this element. Comment on the possible oxidation state of this element.
Answer
The last element of the actinoid series is Lawrencium. Its electronic configuration is as follows : 
${ }_{103} Lr =[ Rn ] 5 f^{14} 6 d^1 7 s^2$
The possible oxidation state of Lr is +3 because it has all round stable configuration (4f14).
$Lr ^{3+}=[ Rn ] 4 f ^{14}$
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Question 381 Mark
What are inner transition elements? Decide which of the following atomic numbers are the atomic number of the inner transition elements :
29, 59, 74, 95, 102, 104.
Answer
Inner transition elements are those elements in which the outermost three shells of the atoms or in any oxidation state are incomplete and their f orbitals are incomplete. These are the elements of f section. They have two series : (i) Lanthanoids (Z = 58 to 71) and (ii) Actinoids (Z = 90 to 103).
Of the above, atomic numbers 59, 95 and 102 belong to internal transition elements.
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Question 391 Mark

What are alloys? Name an important alloy which contains some of the lanthanoid metals. Mention its uses. 

Answer
Alloy: A homogeneous mixture of two or more metals or a metal and a non-metal is called alloy. 
A major alloy containing lanthanoid metals is Misch metal, which contains ~95% a lanthanouid metal, ~5% iron and small amounts of SC, Ca and Al. Misch metal is found in large quantities in magnesium based alloys used in the production of gun bullets, armour, and light flint.
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Question 401 Mark
Which metal in the first series of transition metals exhibits +1 oxidation state most frequently and why?
Answer
In the post first transition series, Cu most often shows the stable oxidation state (+1), because this results in the 3d10 stable configuration, Cu+1 = [Ar] 3d10.
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Question 411 Mark
Predict which of the following will be coloured in aqueous solution? $T i ^{3+}, V ^{3+}, C u ^{+}, S c ^{3+}$,$Mn ^{2+}, Fe ^{3+}$ and $Co ^{2+}$. Give reasons for each.
Answer
All ions except Sc3+ are coloured in aqeuous solution because they contain unpaired electrons in d-orbitals, hence d-d transition occurs easily in them which is responsible for their colour. 
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Question 421 Mark
How is the variability in oxidation states of transition metals different from that of the non transition metals? Illustrate with examples.
Answer
There is a difference of one in the oxidation states of post-transition elements. For example. Manganese shows +2, +3, +4, +5, +6, +7 states, whereas non-transition elements like p-block elements always have a difference of two, such as +2, +4 or +3, +5 or +4, +6 etc.
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Question 431 Mark
Explain giving reason :
Transition metals and their many compounds act as good catalyst.
Answer
Transition metals and many of their compounds are good catalyst because they have variable valency (oxidation number) and the property of forming complex compounds in which unpaired electrons are used.
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Question 441 Mark
Explain giving reason :
The transition metals generally form coloured compounds.
Answer
Compounds of transition metals are generally coloured because they contain unpaired electrons which allow d-d transition $\left(t_{2 g}\right.$ to $\left.e_g\right)$ to occur easily by visible light. In the presence of ligand (water etc.) the d orbital splits into two parts $-t_{2 g}$ and eg. For this reason, their colour is observed only in aqueous solution or hydrated state.
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Question 451 Mark
Explain giving reason :
Transition metals and many of their compounds show paramagnetic behaviour.
Answer
Transition metals and most of their compounds are paramagnetic, because in them unpaired electrons are found near the metal and those elements or compounds which have unpaired electrons are paramagnetic. Like Sc = [Ar]  3d1  4s2 it has one unpaired electron hence it is paramagnetic, similarly in FeSO4, Fe+2 has four unpaired electrons so it is also paramagnetic.
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Question 461 Mark
What are the different oxidation states exhibited by the lanthanoids?
Answer
The general oxidation state of lanthanoids is +3 but some lanthanoids also exhibit +2 and +4 oxidation states. Like Eu2+ and Ce+4.
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