Iron forms iron halides salts by reacting the metal directly with halogen. `FeI_(3)` does not exist. `FeF_(3)` is white soled inspite of five unpaired electrons with `d^(5)` configuration . `FeCl_(3)` is soluble in water and is used as a mordant in dyeing industry.
Q.Anhydrous `FeCl_(3)` can be prepared by reaction of:

Iron forms iron halides salts by reacting the metal directly with halogen. FeI_(3) does not exist. FeF_(3) is white soled inspite of five unpaired electrons with d^(5) configuration . FeCl_(3) is soluble in water and is used as a mordant in dyeing industry. Q. FeI_(3) does not exist because:

Iron forms iron halides salts by reacting the metal directly with halogen. FeI_(3) does not exist. FeF_(3) is white soled inspite of five unpaired electrons with d^(5) configuration . FeCl_(3) is soluble in water and is used as a mordant in dyeing industry. Q. FeCl_(3) solution added to K_(4)[Fe(CN)_(6)] gives A while with KSCN gives B. A and B respectively are:

Give reasons for the following (a) No visible reaction occurs when aluminium is left in contact with conc HNO_(3) . (b) The hydroxides of Al and Fe are insoluble in water. However, NaOH is used to distinguish one from another. ( c) Anhydrous AlCl_(3) cannot prepared by heating hydrated aluminium chloride. (d) Aluminium vessels should not be cleaned with cleansing agent containing washing soda. ( e) Duralumin is used in aircraft industry.

How many of the following statements are correct for green vitriol? 1. it can be used for the preparation of Mohr's salt. 2. It is a hydrated salt and its anhydrous form is white in colour. 3. The decomposition reaction of its anhydrous form is redox in nature. 4. It is used for making fenton's reagent used as a catalyst in organic chemistry. 5. It can be used for the preparation of Potassium ferrocynide. 6. It has same number of molcules of water of crystallization as white vitriol or blue vitriol 7. It turns brownish-yellow on exposure to atmosphere. 8. Its aqueous solution is acidic in natrue due to hydrolysis. 9. Out of the decomposition products of its anhydrous form, only one can turn acidified K_(2)Cr_(2)O_(7) solution green.

Read the following paragraph and answer the questions given below , Stable equilibrium is of various types . Mechanical equilibrium is achieved when all particles are at rest and total potential energy of the system is minimum . At any stage where particles are at rest but the system is not at stable equilibrium as it can reduce its potential energy by reverting to another position, is called metastable equilibrium . Thermal equilibrium is result from the absence of temperature gradients in the system. Chemical equilibrium is obtained when no further reaction occurs between reacting substances, i.e forward and reverse rates of reaction are equal. When steam with solid iron at high temperature Fe_3O_4(s) and hydrogen gas are produced . But the reaction never goes to completion. This is because as the products are formed the reaction proceeds in reverse direction and when rate of reverse reaction is equal to rate of forward reaction , the concentration of reactants and products become constant and equilibrium is reached. When two reactants (A) and (B) are mixed to give products (C) and (D) the concentration quotient (Q) at initial stage of the reaction

The transition element ( with few exceptions ) show a large number of oxidation states . The various oxidation states are related to the electronic configuration of their atoms. The variable oxidation states of a transition metal is due to the involvement of (n-1)d and outer ns electrons . For the first five elements of 3d transition series , the minimum oxidation state is equal to the number of electrons in 4s shell and the maximum oxidation state is equal to the sum of 4s and 3d electrons. The relative stability of various oxidation states of a given element can be explained on the basis of stability of d^(0),d^(5) and d^(10) configuration . In 3d series, the maximum oxidation state is shown by

The transition element ( with few exceptions ) show a large number of oxidation states . The various oxidation states are related to the electronic configuration of their atoms. The variable oxidation states of a transition metal is due to the involvement of (n-1)d and outer ns electrons . For the first five elements of 3d transition series , the minimum oxidation state is equal to the number of electrons in 4s shell and the maximum oxidation state is equal to the sum of 4s and 3d electrons. The relative stability of various oxidation states of a given element can be explained on the basis of stability of d^(0),d^(5) and d^(10) configuration . In which of the following pairs , the first species is more stable than second one

The transition element ( with few exceptions ) show a large number of oxidation states . The various oxidation states are related to the electronic configuration of their atoms. The variable oxidation states of a transition metal is due to the involvement of (n-1)d and outer ns electrons . For the first five elements of 3d transition series , the minimum oxidation state is equal to the number of electrons in 4s shell and the maximum oxidation state is equal to the sum of 4s and 3d electrons. The relative stability of various oxidation states of a given element can be explained on the basis of stability of d^(0),d^(5) and d^(10) configuration . Identify the correct statement

Heavy water is the oxide of heavy hydrogen (deuterium) and is also called deuterium oxide. It is represented as D_(2)O . Heavy water is chemically similar to ordinary water heavy water is used for the neutron moderatory, as a trracer compound and for the preparation of deuterium. Reaction of heavy water with alkali metals liberates heavy hydrogen. heavy water can also be used for exchanging labile hydrogen with deuterium completely or partially. heavy water reacts slower than ordinary water but forms stronger bonds with other elements as compared to hydrogen. Q. Reaction of N_(2)O_(5) and D_(2)O produces

B+underset(conc.)(HNO_(3))tounderset("white solid")(A)+underset("brown gas")(B) How many of the following statements are correct regarding products (A) & (B) ? (1) (A) can be prepared by reacting borax with dilute acids. (2) (A) is a weak monobasic lewis acid. (3) (A) behaves like an electrolyte when dissolved in water. (4) (A) can be prepared by reacting colemanite, SO_(2) & H_(2)O (5) (B) is paramagnetic in nature. (6) (B) is a mixed anhydride. (7) (B) does not forms a dimer (8) (B) reacts with NaOH(aq) undergoing disproportionation. (9) Bond angle about central atom is greater in (A) than in (B) . (Assume atom forming maximum number of bonds as central atom)