# FREQUENCY OF AC MAINS USING SONOMETER EXPERIMENT PDF

Basically the frequency f of a stretched string depends upon the length of the string l, the tension T, and the mass per unit length m. The wire is made to vibrate by passing AC current of unknown frequency and when frequency of stretched string is in resonance with AC source frequency then the frequency of AC mains n is equal to the frequency f of wire. What is sonometer? A sonometer is a hollow wodden box used in lab to study the transverse vibrations of string. It is also called the monochord because it often has only one string. On the wooden rectangular box are two fixed bridges, near the ends, and at one end is a pulley. Author: Gromuro Nibar Country: Brunei Darussalam Language: English (Spanish) Genre: Literature Published (Last): 23 February 2004 Pages: 302 PDF File Size: 15.11 Mb ePub File Size: 4.86 Mb ISBN: 644-2-85889-261-7 Downloads: 39143 Price: Free* [*Free Regsitration Required] Uploader: Mar Basically the frequency f of a stretched string depends upon the length of the string l, the tension T, and the mass per unit length m. The wire is made to vibrate by passing AC current of unknown frequency and when frequency of stretched string is in resonance with AC source frequency then the frequency of AC mains n is equal to the frequency f of wire.

What is sonometer? A sonometer is a hollow wodden box used in lab to study the transverse vibrations of string. It is also called the monochord because it often has only one string. On the wooden rectangular box are two fixed bridges, near the ends, and at one end is a pulley. A string, often a steel wire is fastened at one end run over the bridges and the pulley, and attached to a weight holder hanging below the pulley. Weights can be added to the holder to produce tension in the wire, and a third movable bridge can be placed under it to change the length of the vibrating section of the string.

A sonometer demonstrates the relationship between the frequency produced by a plucked string,tension, length and mass per unit length of the string. For small amplitude vibration, the frequency is proportional to: a The square root of the tension of the string, b The reciprocal of the square root of the linear density of the string, c The reciprocal of the length of the string.

A wire with an electric current passing through it generates a magnetic field around it, this is a simple electromagnet. The strength of magnetic field generated is proportional to the amount of current. In order to concentrate the magnetic field generated by a wire, it is commonly wound into a coil, where many turns of wire sit side by side.

The magnetic field of all the turns of wire passes through the centres of the coil, creating a strong magnetic field there.

A coil forming the shape of a straight tube a helix is called a solenoid, much stronger magnetic fields can be produced if a core of ferromagnetic material, such as soft iron is placed inside the coil. This is called a ferromagnetic-core or iron-core electromagnet. The direction of the magnetic field through a coil of wire can be found from a form of the right-hand rule. The main advantage of an electromagnet over a permanent magnet is that the magnetic field can be rapidly manipulated over a wide range by controlling the amount of electric current.

However, a continuous supply of electrical energy is required to maintain the field. The two ends of the secondary coil of the step-down transformer are connected to the two ends of the sonometer wire, and D. As the D. The electromagnet is kept close to and vertically above the sonometer steel wire. As the A. The position of the knife edges is so adjusted that the sonometer steel wire vibrates in resonance with the A.

Hence, Procedure for measuring the AC frequency using a sonometer 1. Set the sonometer as explained. Arrange the electromagnet in a clamp stand and hold it mm vertically above the center of the steel wire of the sonometer.

Connect the sonometer to secondary of the step-down transformer and connect the D. Cut a V-shaped light paper rider about one cm long and 2 mm wide. Bring the two knife edges close to each other and place the rider on the wire in between the knife edges. See that the pole of the electromagnet is just above the center of the sonometer wire. Now gradually increase the distance the two knife edges till the rider begin to flutter.

At this stage, make the adjustment very carefully till the rider flies off at a certain fixed distance between the two knife edges. The wire is now in resonance with the frequency of the A. Measure the length of the wire between the knife edges with a meter rod. Increase the distance between the two knife edges by a few centimeter.

Repeat the above process by decreasing slowly the distance between the two knife edges till the rider again flies off. Measure the length of the wire between the two knife edges again. The mean of the two length is the true resonant length. Weigh the weights suspended including the hanger with a trip-scale balance. Increase the weight by half a kilogram and repeat the observation to find the length of the wire vibrating in resonance with A. Remove the wire to find the mass per unit length of the wire used.

Measure the length of the wire and weight accurately by a sensitive balance. Precautions 1. The wire should be of a uniform area of cross-section, free from kinks and should be taut.

The observation should start with minimum distance between the two wedges. The resonance position should obtained by first lowly increasing the distance between wedges and then slowly decreasing it. The weight of hanger should always be included in the load.

The pulley should be free from friction. The magnetization of the electromagnet should be checked with an iron needle before starting the experiment. The electromagnet should be clamped mm vertically above the center of the sonometer wire. The sonometer wire should be made of steel so that it is attracted by the electromagnet Related Articles Origins of Physics and its application in various fields Physics is one of the oldest branch of science.

The basic principles of physics explain almost all the natural phenomenons that we come across everyday. The basic principles have also been used in chemistry and other branches of science. Physics is one of the primary pillars on which the whole framework of science stands.

Without Physics its impossible to explain most important phenomenons in the universe. This article provides an in depth valuation on the subject of Physics.

Important questions for first year intermediate Physics examination in Andhra Pradesh Physics is one of the difficult subjects but by practicing regularly we can score good marks in this subject. In this article you can find important questions in Physics for first year intermediate examination in Andhra Pradesh. So learn all these important questions to get good marks in the public examinations. This article covers all details useful for scoring more marks in physics subjects for both Engineering and Medicine aspirant students.

Go through the entire article and remember the tips and points for scoring more marks in physics section in EAMCET examination. Explanation about how a charged particle acts when it goes into magnetic field This article gives knowledge about how a charged particle moves when it enters into a magnetic field.

In this article, three cases of motion of a charged particle in magnetic field is explained with diagrams and mathematical explanation. The definition for pitch of helix is also given in this article. Centrifugal Force : Examples In Daily Life We come across many scientific application in daily but we do not know principle. This is principle of centrifugal force we come across in daily life. This is principle from physics.

Centrifuge machine is classic example of centrifugal force. Washing machine is also one example of this force.

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## How to measure the AC source frequency using sonometer and electromagnet Mazuramar The step down transformer reduces this voltage to 6 volts. Then adjust the knife edges or the magnet to get the maximum vibration. Theory A low alternating current passed directly through sonometer wire imposes forces on it the frequency v nu of the A. A sonometer is an apparatus used to study the transverse vibrations of stretched strings. Since the current flowing is alternating, the wire vibrates with a frequency equal to the frequency of A. For a string of a given length and diameter and under constant tension, the frequency is inversely proportional to the square root of the density of the material of the string.

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## To Find the Frequency of the AC Mains With a Sonometer .