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Arrange the following as per the instruction given in the brackets:
Na, K, Li (Increasing atomic size)
Concept: Periodic Properties >> Atomic Size
Draw an electron dot diagram to show the formation of each of the following compounds:
Methane
[H = 1, C = 6, Mg = 12, Cl = 17]
Concept: Periodic Properties >> Electron Affinity
Draw an electron dot diagram to show the formation of each of the following compounds:
Magnesium Chloride
[H = 1, C = 6, Mg = 12, Cl = 17]
Concept: Periodic Properties >> Electron Affinity
Rewrite the following sentences by using the correct symbol > (greater than) or < (less than) in the blanks given
The ionization potential of potassium is _________________ that of sodium.
Concept: Periodic Properties >> Ionisation Potential (Ionisation Energy)
Arrange the following as per the instruction given in the bracket:
Mg, Cl, Na, S, Si (decreasing order of atomic size).
Concept: Periodic Properties >> Atomic Size
Element X is a metal with a valency 2, Y is 3 non- metal with a valency 3.
1) Write an equation to show how Y from an ion.
2) If Y is a diatomic gas, write an equation for the direct combination of X and Y to form a compound.
Concept: Periodic Properties >> Electron Affinity
Choose the correct answer from the options given below:
Ionisation potential increases over a period from left to right because of the
(A) Atomic radius increases and nuclear charge increases
(B) Atomic radius decreases and nuclear charge decreases
(C) Atomic radius increases and nuclear charge decreases
(D) Atomic radius decreases and nuclear charge increases
Concept: Periodic Properties >> Ionisation Potential (Ionisation Energy)
Choose the correct answer from the options given below:
If an element A belongs to Period 3 and Group II, then it will have
A. 3 shells and 2 valence electrons
B. 2 shells and 3 valence electrons
C. 3 shells and 3 valence electrons
D. 2 shells and 2 valence electrons
Concept: Periodic Properties >> Electron Affinity
Give one word or phrase for the following:
Formation of ions from molecules
Concept: Periodic Properties >> Ionisation Potential (Ionisation Energy)
The energy released when an electron is added to a neutral gaseous isolated atom to form a negatively charged iron.
Concept: Periodic Properties >> Electron Affinity
A process of formation of ions from molecules which are not in the ionic state
Concept: Periodic Properties >> Ionisation Potential (Ionisation Energy)
Give a reason for Ionisation potential increases across a period, from left to right
Concept: Periodic Properties >> Ionisation Potential (Ionisation Energy)
An element in period 3, whose electron affinity is zero:
Concept: Periodic Properties >> Electron Affinity
Li, K, Na, H (In the decreasing order of their ionization potential)
Concept: Periodic Properties >> Ionisation Potential (Ionisation Energy)
F, B, N, O (In the increasing order of electron affinity)
Concept: Periodic Properties >> Electron Affinity
Why is the electron affinity of fluorine less than chlorine?
Concept: Periodic Properties >> Electron Affinity
An element with the largest atomic radius among the following is ______.
Concept: Periodic Properties >> Atomic Size
Give reason for the following:
Ionisation potential decreases down a group.
Concept: Periodic Properties >> Ionisation Potential (Ionisation Energy)
Arrange the following as per the instruction given in the bracket:
Carbon, Fluorine, Beryllium (decreasing order of atomic size).
Concept: Periodic Properties >> Atomic Size
Arrange the following as per the instruction given in the bracket:
Potassium, Lithium, Sodium (increasing order of ionization potential).
Concept: Periodic Properties >> Ionisation Potential (Ionisation Energy)
