Ionisation energies of Ni and Pt in Kj/mol are given below
`{:("",IE_1 + IF_2,IE_3 + IE_4),(Ni,2.49,8.80),(Pt,2.60,6.70):}`
So the correct statment is

IE_2 gt IE_1 for a given element - Why.

Find the area of the quadrilaterals, the co-ordinates of whose vertices are given below. (2,1),(6,0),(5,-2),(-3,-1).

Construct quadrilaterals with the measurements given below: Rhombus NICE with NI = 4 cm and IE = 5.6 cm

The elements of the tree transition series of the d-block re given below {:(Si,Ti,V,Cr,Mn,Fe,Co,Ni,Cu,Zn),(Y,Zr,Nb,Mo,Te,Ru,Rh,Pd,Ag,Cd),(La,Hg,Ta,W,Re,Os,Ir,Pt,Au,Hg):} In any transition series as we move from left to right , the d-orbitals ar progressively filled and their properties vary accordigly Which of the following is the correct order of second ionisation energy

The minimum amount of energy required to remove the most loosely bound electron from an isolated atom in the gaseous state in known as ionisation energy or ionisation enthalpy (IE_1) of the element. The energy required to remove the second electron from the monovalent cation is called second ionisation enthalpy (IE_2) . Similarly, we have third, fourth ..... inonisation enthalpies. The values of ionisation energy depends on a number of factors such as (i) size of the atom (ii) screening effect (iii) nuclear charge (iv) half filled and fully filled orbitals (v) shape of orbital. In a group, the ionisation energy decreases from top to bottom. In a period, the value of ionisation energy increases from left to right. Compared to the second ionisation energy of an atom, the third ionisation

The minimum amount of energy required to remove the most loosely bound electron from an isolated atom in the gaseous state in known as ionisation energy or ionisation enthalpy (IE_1) of the element. The energy required to remove the second electron from the monovalent cation is called second ionisation enthalpy (IE_2) . Similarly, we have third, fourth ..... inonisation enthalpies. The values of ionisation energy depends on a number of factors such as (i) size of the atom (ii) screening effect (iii) nuclear charge (iv) half filled and fully filled orbitals (v) shape of orbital. In a group, the ionisation energy decreases from top to bottom. In a period, the value of ionisation energy increases from left to right. The first ionisation energy of Mg, Al, P and S follows the order:

The minimum amount of energy required to remove the most loosely bound electron from an isolated atom in the gaseous state in known as ionisation energy or ionisation enthalpy (IE_1) of the element. The energy required to remove the second electron from the monovalent cation is called second ionisation enthalpy (IE_2) . Similarly, we have third, fourth ..... inonisation enthalpies. The values of ionisation energy depends on a number of factors such as (i) size of the atom (ii) screening effect (iii) nuclear charge (iv) half filled and fully filled orbitals (v) shape of orbital. In a group, the ionisation energy decreases from top to bottom. In a period, the value of ionisation energy increases from left to right. In a period, the ionisation energy is lowest for the :

On treatment of [Ni(NH_(3))_(4)]^(+2) with conc.HC/ two compounds I and II having the same formula [Ni(NH_(3))_(2)Cl_(2)] are obtained, I can be converted into II by boiling with dil.HCI. A solution of I reacts with oxalic acid to form [Ni(NH_(3))_(2)(C_(2)O_(4))] where as II does not react. Point out the correct statement from the following

IE_(2) > IE_(1) for a given element - why?