What is called hole?
Answer
Verified131.4k+ views
Hint: Use the concept of the movement of the electron from the valence band to the conduction band and use the property of physical particles to define the nature of the hole. Use the direct nature of hole and electron.
Complete step by step solution:
When electrons moves from the valence band (the shell outside the closed shells that is partially or completely filled with electrons) to the conduction band (the outer shell from which electrons most easily escape from, or are accepted by, the atom), a vacancy is created in the valence band. This vacancy is called a hole. It is a positive charge carrier.
Hole is opposite in polarity of the electron but the magnitude of both hole and electron is equal.
In other words, a hole is an absence of an electron in a particular place in an atom. Hole is not a physical particle in the same sense as an electron, but a hole can be passed from atom to atom in a semiconductor material.
The two types of charge carriers are holes and electrons that are responsible for current in semiconductor materials.
The direction of flow of holes is from positive to negative which is opposite to that of electrons charge carriers.
The majority charge carriers are electrons in N-type semiconductors whereas, in P-type semiconductors, holes are the majority charge carriers.
Note: Make sure about the direction of charge carriers and the movement of electrons. Avoid confusion between the N-type and P-type material and their properties and use it carefully.
Complete step by step solution:
When electrons moves from the valence band (the shell outside the closed shells that is partially or completely filled with electrons) to the conduction band (the outer shell from which electrons most easily escape from, or are accepted by, the atom), a vacancy is created in the valence band. This vacancy is called a hole. It is a positive charge carrier.
Hole is opposite in polarity of the electron but the magnitude of both hole and electron is equal.
In other words, a hole is an absence of an electron in a particular place in an atom. Hole is not a physical particle in the same sense as an electron, but a hole can be passed from atom to atom in a semiconductor material.
The two types of charge carriers are holes and electrons that are responsible for current in semiconductor materials.
The direction of flow of holes is from positive to negative which is opposite to that of electrons charge carriers.
The majority charge carriers are electrons in N-type semiconductors whereas, in P-type semiconductors, holes are the majority charge carriers.
Note: Make sure about the direction of charge carriers and the movement of electrons. Avoid confusion between the N-type and P-type material and their properties and use it carefully.
Recently Updated Pages
Young's Double Slit Experiment Step by Step Derivation
Difference Between Circuit Switching and Packet Switching
Difference Between Mass and Weight
JEE Main Participating Colleges 2024 - A Complete List of Top Colleges
JEE Main Maths Paper Pattern 2025 – Marking, Sections & Tips
Sign up for JEE Main 2025 Live Classes - Vedantu
Trending doubts
Degree of Dissociation and Its Formula With Solved Example for JEE
Displacement-Time Graph and Velocity-Time Graph for JEE
Clemmenson and Wolff Kishner Reductions for JEE
Sir C V Raman won the Nobel Prize in which year A 1928 class 12 physics JEE_Main
In Bohrs model of the hydrogen atom the radius of the class 12 physics JEE_Main
JEE Main 2025 Session 2 Registration Open – Apply Now! Form Link, Last Date and Fees
Other Pages
JEE Advanced 2024 Syllabus Weightage
CBSE Date Sheet 2025 Class 12 - Download Timetable PDF for FREE Now
JEE Main 2025 - Session 2 Registration Open | Exam Dates, Answer Key, PDF
CBSE Class 10 Hindi Sample Papers with Solutions 2024-25 FREE PDF
CBSE Board Exam Date Sheet Class 10 2025 (OUT): Download Exam Dates PDF
CBSE Class 10 Hindi Course-B Syllabus 2024-25 - Revised PDF Download