Anderson Physics Lab Manual
Laboratory Manual for Foundations of Physics I Physics 191 Fall 2007. Will be identical to that in the lab manual — in which case your procedure may be as. This is the Laboratory Manual for the first course in the General Physics sequence. The course covers Classical Mechanics and is required of all students in Science and Engineering Programs at IIT. 2016 Honda Foreman S 450 4x4 Manual.
Aim • To determine the self inductance of the coil (L) using Anderson’s bridge. • To calculate the value of inductive reactance (X L) of the coil at a particular frequency. Apparatus Apparatus required are resistance boxes, capacitor, headphone, signal generator, inductance coil and connection wire. Theory AC bridges are often used to measure the value of unknown impedance (self/mutual inductance of inductors or capacitance of capacitors accurately). A large number of AC bridges are available and Anderson's Bridge is an AC bridge used to measure self inductance of the coil. It is a modification of Wheatstones Bridge. It enables us to measure the inductance of a coil using capacitor and resistors and does not require repeated balancing of the bridge.
The connections are shown in Fig: 1. The bridge is balanced by a steady current by replacing the headphone H by moving coil galvanometer and A.C source by a battery. This is done by adjusting the variable resistance, r.
After a steady balance has been obtained, inductive balance is obtained by using the A.C source and headphone. The condition for balance is that the potentials at the terminals D and E are same.
Then the current flowing through branch AB is I 1, through branch AE and EB is I 2. The current flowing through branches AD and DC is I 3, while that through branch BC is I 1+I 2.
No current flows through branch DE. Circuit Details Consider the mesh ABCDA (1) This shows that potential drop along ABC is equal to that along ADC.
Consider the mesh ABEA, there is no e.m.f. (2) Consider the mesh AEDA, (3) i.e. Potential difference from A to E is equal to that from A to D. From (3) we get, (4) Now substitute the value of I 3 from (1) in (4) (5) Dividing (5) by (2) (6) Multiply and divide by R in the L.H.S of (6) and rearrange, (7) Equating real parts on both sides of (7) (8) Equation (8) represents the condition for balancing of the bridge. Equating imaginary parts on both sides of (7) (9) Substituting: From (8) and (9) gives us (10) At this condition of balancing there is minimum sound in the headphone. Further we can make P=Q (11) The inductive reactance can be calculated by (11) Notes: 1.
Since the impedances of the arms should be of the same order of magnitude, the approximate value of L should be determined by some other method. Then satisfying the condition, 2. Sometimes it may be impossible to obtain the balance by varying r and S. Then the formula for L with a value of RQ which satisfies formula for S may require negative value of r. If the product CRq is greater than L, then variable resistance r will be a negative quantity. It will, therefore, not possible to obtain a balance point under such conditions.Hence it is desirable to know the value of L approximately so that CRQ is less than L.
A balance is then obtained with a positive value of r. The value of P and R should be then be adjusted so that r is a positive quantity and a balance can be obtained by varying the value of r. To obtain balance point a cathode ray oscilloscope can be used in place of heat phone. Advantages 1. Fixed capacitor is used in terms of variable capacitor. The bridge is used for accurate determination of inductance in millimeter range. Disadvantages: 1.
Bridge is more complex 2. Difficult to attain balancing condition.
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