Hydrogen is
A. Electropositive
B. Electronegative
C. Both electropositive as well as electronegative
D. Neither electropositive nor electronegative
Answer
Verified232.8k+ views
Hint: In this question we will study about the ability or tendency of hydrogen to lose electrons and convert into a cation which has a positive charge (electropositive) or to gain or attract electrons towards it and convert into an anion which has a negative charge (electronegative).
Complete Step by Step Answer:
When an ion has a positive charge, the element is referred to as electropositive, and when an ion has a negative charge, the element is referred to as electronegative. The majority of electropositive elements are positioned on the periodic table's left side, while electronegative elements are positioned directly next to it. By observing an element's propensity to either attract or lose an electron, we can determine if it is electropositive or electronegative.
Since hydrogen only has one electron, when it interacts with alkali metals, it loses that electron and forms the H2 molecule, which is electronegative in nature. While hydrogen combines with group 17 halogens, losing its electron to produce the ion H+. This demonstrates its electropositive nature.
The correct answer is C.
Additional Information: The configuration of the sodium element is 1s22s22p63s1. The one valence electron that it now has in its outermost shell can be removed for it to become stable. As a result, it gains a positive charge (Na+) after losing one electron and becomes an electropositive element. The configuration of the fluorine element is 1s22s22p5. Therefore, its outermost shell simply requires one additional electron. It therefore has a high propensity to draw an electron. It becomes an electronegative element as a result of gaining one electron, which gives it a negative charge (F-).
Note: Only to attain the closest noble gas configuration, which is the most stable configuration, can the elements generate positive or negative ions. The periodic table is arranged with all electropositive elements to the left and all electronegative elements to the right, or we may say that as we move from left to right, the electronegativity increases and the electropositivity drops.
Complete Step by Step Answer:
When an ion has a positive charge, the element is referred to as electropositive, and when an ion has a negative charge, the element is referred to as electronegative. The majority of electropositive elements are positioned on the periodic table's left side, while electronegative elements are positioned directly next to it. By observing an element's propensity to either attract or lose an electron, we can determine if it is electropositive or electronegative.
Since hydrogen only has one electron, when it interacts with alkali metals, it loses that electron and forms the H2 molecule, which is electronegative in nature. While hydrogen combines with group 17 halogens, losing its electron to produce the ion H+. This demonstrates its electropositive nature.
The correct answer is C.
Additional Information: The configuration of the sodium element is 1s22s22p63s1. The one valence electron that it now has in its outermost shell can be removed for it to become stable. As a result, it gains a positive charge (Na+) after losing one electron and becomes an electropositive element. The configuration of the fluorine element is 1s22s22p5. Therefore, its outermost shell simply requires one additional electron. It therefore has a high propensity to draw an electron. It becomes an electronegative element as a result of gaining one electron, which gives it a negative charge (F-).
Note: Only to attain the closest noble gas configuration, which is the most stable configuration, can the elements generate positive or negative ions. The periodic table is arranged with all electropositive elements to the left and all electronegative elements to the right, or we may say that as we move from left to right, the electronegativity increases and the electropositivity drops.
Recently Updated Pages
JEE Main 2023 April 6 Shift 1 Question Paper with Answer Key
JEE Main 2023 April 6 Shift 2 Question Paper with Answer Key
JEE Main 2023 (January 31 Evening Shift) Question Paper with Solutions [PDF]
JEE Main 2023 January 30 Shift 2 Question Paper with Answer Key
JEE Main 2023 January 25 Shift 1 Question Paper with Answer Key
JEE Main 2023 January 24 Shift 2 Question Paper with Answer Key
Trending doubts
JEE Main 2026: Session 2 Registration Open, City Intimation Slip, Exam Dates, Syllabus & Eligibility
JEE Main 2026 Application Login: Direct Link, Registration, Form Fill, and Steps
Understanding the Angle of Deviation in a Prism
Hybridisation in Chemistry – Concept, Types & Applications
How to Convert a Galvanometer into an Ammeter or Voltmeter
Understanding the Electric Field of a Uniformly Charged Ring
Other Pages
JEE Advanced Marks vs Ranks 2025: Understanding Category-wise Qualifying Marks and Previous Year Cut-offs
NCERT Solutions For Class 12 Chemistry Chapter 1 Solutions (2025-26)
Solutions Class 12 Chemistry Chapter 1 CBSE Notes - 2025-26
NCERT Solutions For Class 12 Chemistry Chapter 4 The d and f Block Elements (2025-26)
Biomolecules Class 12 Chemistry Chapter 10 CBSE Notes - 2025-26
NCERT Solutions For Class 12 Chemistry Chapter 10 Biomolecules (2025-26)