Answer
Step by step text solution for A wave is represented by - y=a sin (At-Bx+C) where A, B, C are constants. The Dimensions of A, B, C are by PHYSICS experts to help you in doubts & scoring excellent marks in Class 12 exams.
|
Topper's Solved these Questions
QUESTION BANK 2021
NAVNEET PUBLICATION - MAHARASHTRA BOARD|Exercise Superposition of Waves (Short Answer I (SA1) ( 2 MARKS Each ) )|7 VideosView PlaylistQUESTION BANK 2021
NAVNEET PUBLICATION - MAHARASHTRA BOARD|Exercise Superposition of Waves ( Short Answer II (SA2) ( 3 MARKS Each ) )|6 VideosView PlaylistQUESTION BANK 2021
NAVNEET PUBLICATION - MAHARASHTRA BOARD|Exercise Superposition of Waves (MCQ’S (1 Mark Each) )|7 VideosView PlaylistMULTIPLE CHOICE QUESTIONS
NAVNEET PUBLICATION - MAHARASHTRA BOARD|Exercise Communication Systems|6 VideosView PlaylistSHORT ANSWER QUESTIONS
NAVNEET PUBLICATION - MAHARASHTRA BOARD|Exercise Assignments|3 VideosView Playlist
Similar Questions
Explore conceptually related problems
Knowledge Check
A
B
C
D
Submit
A
B
C
D
Submit
A
B
C
D
Submit
Similar Questions
Explore conceptually related problems
NAVNEET PUBLICATION - MAHARASHTRA BOARD-QUESTION BANK 2021- Superposition of Waves (Very Short Answer (VSA) ( 1 MARK Each ) )
- A wave is represented by - y=a sin (At-Bx+C) where A, B, C are con...
03:01
|
Playing Now - Progressive wave with doubly periodic motion means.
04:33
|
Play - What is meant by interference of waves?
05:31
|
Play - What are beats?
01:38
|
Play - What are harmonics?
02:30
|
Play - What are fundamental note and overtones?
01:46
|
Play - State law of length.
01:16
|
Play - In law of tension, the fundamental frequency of vibrating string is
03:12
|
Play - In law of linear density, the fundamental frequency of vibrating strin...
02:48
|
Play - What is the resonance?
02:33
|
Play - Free vibrations and forced vibrations.
04:06
|
Play - A violin string vibrates with fundamental frequency of 510 Hz. What is...
02:22
|
Play - A string 1 m long is fixed at one end. The other end is moved up and d...
02:48
|
Play