NCERT Solutions for Class 11 Physics Chapter 15 Waves in Hindi pdf download
Download the Class 11 Physics NCERT Solutions in Hindi medium and English medium as well offered by the leading e-learning platform Vedantu. If you are a student of Class 11, you have reached the right platform. The NCERT Solutions for Class 11 Physics in Hindi provided by us are designed in a simple, straightforward language, which are easy to memorise. You will also be able to download the PDF file for NCERT Solutions for Class 11 Physics in Hindi from our website at absolutely free of cost.
NCERT, which stands for The National Council of Educational Research and Training, is responsible for designing and publishing textbooks for all the classes and subjects. NCERT textbooks covered all the topics and are applicable to the Central Board of Secondary Education (CBSE) and various state boards.
We, at Vedantu, offer free NCERT Solutions in English medium and Hindi medium for all the classes as well. Created by subject matter experts, these NCERT Solutions in Hindi are very helpful to the students of all classes.
FAQs on NCERT Solutions for Class 11 Physics Chapter 15 Waves in Hindi
1. What is the benefit of referring to the NCERT Solutions of Chapter 15 Waves for Class 11 Physics?
The advantage of referring to the NCERT Solutions of Chapter 15 Waves for Class 11 Physics is that the solutions are given topic-wise in an organized manner which becomes very easier for the students to prepare themselves. The answers are in a simple and understanding way. The complex solutions are also explained in simple steps. Some of the important questions which are given after each chapter still give comprehensive preparation for the students.
2. What is the method to get more marks in NCERT Solutions of Chapter 15 Waves for Class 11 Physics?
Chapter 15 “Waves” of Class 11 Physics can be well prepared once the concept is understood. There are lots of numerical problems in this which need logical thinking and practise. Students should concentrate on each topic and practise all the numericals. Physics is a subject that needs to be practised. One cannot just memorize the topics. The formulas have to be revised every day so it becomes easier to solve the numericals. If one gets through with the formulas and the concepts Physics becomes very easy. Practice regularly will surely help to get more marks.
3. What are the characteristics of waves?
Following are the characteristics of waves:
The particles of the waves are executed in small vibrations about their mean positions but the particles are not displayed permanently in the direction of waves.
Every successive particle of the medium executes a motion quite similar to predecessors along the perpendicular to the line of travel of the wave.
Only the transfer of energy takes place during the wave motion, not a portion of the medium.
Mechanical waves, Electromagnetic waves, and matter waves are the three types of waves.
4. What do you understand about transverse wave motion?
Transverse wave can be defined as the motion in which the oscillation is with all points along the path at right angles. The particles of the medium to the direction of the propagation of waves in a transverse wave motion. The waves on strings, the surface of the water and the electromagnetic waves are the transverse waves. The electromagnetic waves which include the light waves is not a vibration of particles but it is the oscillation of the electric and the magnetic fields which happens at the right angles to the direction of the wave it travels. You can refer to Vedantu's NCERT Solutions Class 11 Physics Chapter 15 to get a proper definition and explanation.
5. Define wavelength and wave velocity?
The distance travelled by the disturbance during the time of one vibration is called wavelength and it is denoted by (λ). If we are talking about the transverse waves then, the definition of the wavelength is the distance between the two successive ups and downs.
Wave Velocity is the time rate of propagation of wave motion given in the medium. The factor on which the wave velocity depends on the nature of the medium.
Wave velocity = Frequency x Wavelength
u=v x λ