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PH8201 Notes r2017 notes

PH8201 Notes Physics For Civil Engineering Study materials

PH8201 Notes Physics For Civil Engineering Study materials

PH8201 Notes Physics For Civil Engineering Study materials for Anna University Regulation 2017

The notes are provided in this page for ph8201 notes of regulation 2017 Anna University to get download .

OUTCOMES of PH8201 Notes

Upon completion of this course,

  • To have knowledge on the thermal performance of buildings.
  • The students will acquire knowledge on the acoustic properties of buildings.
  • students will get knowledge on various lighting designs for buildings.
  • To gain knowledge on the properties and performance of engineering materials.
  • The students will understand the hazards of buildings.

TEXT BOOKS PH8201 Notes

1. Alexander, D. “Natural disaster”, Springer (1993).
2. Budinski, K.G. & Budinski, M.K. “Engineering Materials Properties and Selection”, Prentice Hall, 2009.
3. Severns, W.H. & Fellows, J.R. “Air conditioning and refrigeration”, John Wiley and Sons, London, 1988.
4. Stevens, W.R., “Building Physics: Lighting: Seeing in the Artificial Environment, Pergaman Press, 2013.

REFERENCES PH8201 Notes

1. Gaur R.K. and Gupta S.L., Engineering Physics. Dhanpat Rai publishers, 2012.
2. Reiter, L. “Earthquake hazard analysis – Issues and insights”, Columbia University Press, 1991.
3. Shearer, P.M. “Introduction to Seismology”, Cambridge University Press, 1999.

Subject Name Physics For Civil Engineering
Subject Code PH8201
Regulation 2017
Semester 2

Download PH8201 Notes:

1st unit THERMAL PERFORMANCE OF BUILDINGS  Coming soon

2nd unit ACOUSTICS Click here to download

3rd unit LIGHTING DESIGNS Coming Soon

4th unit NEW ENGINEERING MATERIALS Click here to download

5th UNIT HAZARDS Coming Soon


For Ph8201 Syllabus Click here

PH8201 Important Question Click Here

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MA8251 Engineering Mathematics 2 Syllabus and notes click here


BE8251 Basic Electrical and Electronics Engineering click here


GE8291 Environmental Science and Engineering syllabus click here


GE8292 Engineering Mechanics Syllabus and notes click here


GE8261 Engineering Practices Laboratory syllabus click here


CE8211 Computer Aided Building Drawing syllabus click here

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PH8201 Notes r2017 notes

Characteristics of sound and Classification of Sound

Characteristics of sound and Classification of Sound

Characteristics of sound and Classification of Sound. Sound is a form of energy.

Sound is produced by the vibration of the body.

The sound requires a material medium for its propagation and can be transmitted through solids, liquids and gases.

Characteristics of Sound

  • Sound is a form of energy.
  • The Sound is produced by the vibration of the body.
  • Sound requires a material medium for its propagation and can be transmitted through solids, liquids and gases.
  • When sound is conveyed from one medium to another medium there is no bodily motion of the medium.
  • Sound requires a definite interval of time to travel from one point to another point in a medium and its velocity is smaller than the velocity of the light.
  • Velocity of sound is maximum is solids, which have higher bulk modules and least in gases.
  • Sound may be reflected, refracted, or scattered. It exhibits diffraction and interference.In transverse mode it exhibits polarization also.

Classification of Sound based on Characteristics of Sound

  • Sound waves of frequencies below 20 Hz are termed as Infrasonic (inaudible)
  • The Sound waves of frequencies above 20000 Hz are termed as Ultrasonic (inaudible)
  • Sound waves of frequencies 20 Hz to 20,000 Hz are termed as audible sound

Further the audible sound is classified as Musical Sounds and Noise.

The sounds which products effect on the ear are called musical sound and that which produces jarring and unpleasing effect are called noises.

sound is classified into

  1. Infrasonics
  2. Audible
    1. Music
    2. Noise
  3. Ultrasonics

Characteristics of Sound – Characteristics of Musical Sound

There are three characteristics of Musical Sound in Characteristics of Sound

  • Pitch or Frequency
  • Quality or Timbre
  • Intensity or Loudness
  • Pitch or frequency:

Pitch is the characteristic of sound which is the sensation conveyed to our brain by thesound waves falling in our ears.

It depends directly on the frequency of the incident soundwaves.

Though the pitch is directly related to frequency, they are not the same; in generalthe frequency is a physical quantity whereas the pitch is a physiological quantity.

Example: sound of mosquito produces high pitch than the sound of lion which is a lowpitch.

  • Quality or Timbre

The quality of the sound is the one which helps us to distinguish between the musical

notes emitted by the different instruments or voices, even though they have the same pitch and loudness.

  • Intensity or loudness

The intensity of sound at a point is defined as the average rate of flow of acoustic energy(Q) per unit area situated normally to the direction of und wave.

The intensity depends upon the following factors

Where n=Frequency of the sound wave

a=amplitude of the wave

p=density of the medium

v=velocity of sound in that medium

x=distance from the source of sound to the receiving end or Intensity per unit area per unit time

Characteristics of Sound – Loudness – Weber Fechner Law

Loudness of the sound is defined as the degree of sensation produced on the ear.

The loudness varies from one observer to another.

It is a physiological quantity and therefore it is difficult to measure loudness.

But, it can be measured a logarithmic value of intensity

Equation 1 is known as WEBER – FECHNER law.

Differentiating equation 1, we have is called Sensitiveness of ear.

Therefore the sensitiveness decreases with the increase in Intensity.

For example more sound in an auditorium will not be hard properly.

INTENSITY       

  1. It refers to the external measurement
  2. And it is common to hear
  3. it can be measureddirectly

LOUDNESS

  1. It is just a sensation produced on the ear.
  2. And It depends upon individual listener
  3. It is measured only with respect to intensity.

Characteristics of Sound – UNIT OF LOUDNESS

If L, is the Loudness of sound of intensity I and L is the loudness corresponding to thestandard reference intensity 1 = 10 watts/m, then according to Weber-Fechner law, we have

Now, the intensity level (I) which is equal to the difference in Loudness,

If k is taken as 1, the intensity level or difference in loudness is expressed in bels, a unit named after Alexander Graham Bell, the inventor of Telephone

Decibel

The unit of Bel is however quite large and hence I is expressed by another standard unitcalled decibel 1 bel = 10 decibels.

Case 1:

If I=0dB, then equation 1 becomes

Case 2:

If I = 1dB, then equation 1 becomes

Subtracting equation 2 from 3, we get

1.26-1=0.26

For a change in intensity level of 1 dB, the intensity changes to about 26%.

When I1 = 100 Io ;IL=20dB

When I1 = 1000 I;  IL=30dB

To build up a scale of business, zero on the scale is taken as the threshold of hearing, which corresponds to Io = 1012 W/m2. The maximum intensity with which an earcan tolerate is I = 1W/m2

Characteristics of Sound and Classification of Sound
Characteristics of Sound and Classification of Sound

PHON

we have expressed the loudness in dB, on the assumption that the threshold of audibilityis constant for all frequencies.

But it is found that threshold of audibility varies withfrequency.

Sounds of same intensity but of different frequency differ in loudness.

Hence adifferent unit called PHON is used to measure loudness level or equivalent loudness.

Definition:

The meausre of loudness in Phons of any sound is equal to loudness in decibels of an equally loud pure tone of frequency 1000Hz.

Explanation:

Let us consider two sources ‘S’ the standard source and S, the source ofsound for which loudness is to be measured.

The two sounds are heard alternatively andthe intensity of S is adjusted to be equal to the loudness of the S as shown in the figure.

Now the intensity level of S is measured, If it say ‘n’ decibels above the standard intensity,then the equivalent loudness is ‘n’ Phons

The expression for loudness in Phon (L) is given by Where I is the intensity of sound in dB

SONE

Sone is another unit to measure the loudness in terms of Phon or dB.

It is used to measurevery high loudness, especially between the ranges of 40 Phons to 100 Phons. i.SONE in terms of PHON

Definition:

The measure of loudness in some of any sound in equal to the loudness

of that particular sound having a loudness level of 40 PHons.

Explanation:

Suppose a source of sound is having the loudness or 40 Phons then it can be assumed to have a loudness of 1 Sone.

Expression for Loudness in Sone is empirically given by

Example:

Suppose if the loudness in Phon is 40 Phons, then the loudness in Sone in given by

ii.Sone in terms of Decibel

Definition:

In terms of decibels the Sone is defined as the loudness of an equally

loud pure tone of frequency 1000Hz with 40dB if intensity level.

Explanation:

 It is similar to that of the measurement of loudness in Phon in terms of dB, but the increase in intensity level should be 40dB above the standard intensity, then the equivalent loudness is 1 Sone.

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