1) a bridge based on the principle of Wheat stone's bridge that is
used to compare two nearly equal resistances and to determine values of low resistances
and the specific resistance of a wire. It differs from a meter bridge because additional
resistances of similar magnitudes are included at either end of the meter wire.
*heist sensitivity
*high resistance measure with less power consumption
*more over much less complex than other bridges with this sensitivity
The resistance of connecting wires is comparable to unknown resistance.
R= PS/Q + (qr/(p+q+r))(P/Q - p/q);
where r is the resistance of connecting wires.
when the bridge is balanced r is eliminated.
1.It is used for mesurement of meddium resistance.
2.It is steel an accurace and reliable instrument and extermely used in industry.
3.Meddium resistance(1OHM to 0.1 megaOHM).
4.The whetstone bridge is an instrument for making comparision instrument are oprates open a known indication principles.
5.This means the indication is in dependent of the calibiration of known indicating instrument.
Disadvantages
kelvin's bridge is the modified version of wheatstone bridge and used to measure resistance values less than 1 ohm.
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in science k stands for kelvin, the temperature system that starts from absolute zero K does not equal kelvin... K stands for Kelvin. In different applications it means different constants, such as Boltzmann constant or a spring constant.
It is very hot. The answer is 29726.85 C (approx.). The Kelvin scale starts at absolute zero and is used in scientific laboratories. Celsius is for general use and set 0 and 100 as melting and boiling point of water respectively. To convert from K to C, subtract 273.15 from K.
at 0'kelvin
kelvin's bridge is the modified version of wheatstone bridge and used to measure resistance values less than 1 ohm.
kelvin double
Kelvin Bridge: This Bridge is a modified version of Wheatstone Bridge and provides greatly increased accuracy in the measurement of low value resistances, generally below 1 ohm.
The two main types of bridges in electricity are Wheatstone bridge and Kelvin bridge. The Wheatstone bridge is used to measure resistance while the Kelvin bridge is used to measure low resistance values. Both bridges are commonly used in electrical and electronic circuit analysis for accurate measurements and fault detection.
kelvin double bridge
A Kelvin bridge (as well called a Kelvin double bridge and in some countries a Thomson bridge) is a measuring instrument used to measure unknown electrical resistors below 1 ohm. It is specifically designed to measure resistors that are built as four terminal resistors.
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requires manual balancingsensitive null detector or galvanometer is required to detect balance conditionmeasurement current needs to be reasonably high to achieve sufficient sensitivity.
An advantage of the Kelvin scale is that all the temperatures on this scale are positive. Another advantage is that the temperature in Kelvin is directly proportional to the total internal energy of the substance: if you double the internal energy, you will double the temperature in Kelvin.
On the Kelvin Scale
To double the pressure, you will need double the temperature. Note that you have to use the absolute temperature (usually Kelvin) for this calculation. So, for example, if you start off at 100 degrees Celsius, you convert that to Kelvin (add 273 to convert from Celsius to Kelvin), double the number to get double the temperature, then convert back to Celsius (subtract 273 from the previous result).Similarly, if you start out at a certain number of degrees Fahrenheit, you must first convert that to Kelvin, then double the result, and finally convert this last result back to Fahrenheit.
Known for: 1.Joule-Thomson effect 2.Thomson effect (thermoelectric) 3.Mirror galvanometer 4. Siphon recorder 5.Kelvin materialKelvin water dropper 6.Kelvin wave 7.Kelvin-Helmholtz instability 8.Kelvin-Helmholtz mechanism 9.Kelvin-Helmholtz luminosity 10.Kelvin transform 11.Absolute Zero 12.Kelvin's circulation theorem 13.Stokes' Theorem 14.Kelvin bridge 15.Kelvin sensing 16.Kelvin equation 17.Magnetoresistance 18.Four-terminal sensing 19.Coining the term 'kinetic energy'