There are two coils in watt meter namely current coil & potential coil.the two ends of current coil are 'M' & 'L' and they should connect in series with instrument. and the two ends of p.c. is 'c' which is connected to 'L'. and another is at the other end of instrument.There are two coils in watt meter namely current coil & potential coil.the two ends of current coil are 'M' & 'L' and they should connect in series with instrument. and the two ends of p.c. is 'c' which is connected to 'L'. and another is at the other end of instrument.There are two coils in watt meter namely current coil & potential coil.the two ends of current coil are 'M' & 'L' and they should connect in series with instrument. and the two ends of p.c. is 'c' which is connected to 'L'. and another is at the other end of instrument.
Bitwise OR.
In english T e c h n i c a l .
Ans. A series L R C in parallel with C' .
For to keep the resonant frequancy constant L*C has to stay same. Lets say if you double L you have to divide C by 2 to keep the same resonant frequency. If only L increases Resonant frequency decrease, this is same for C.
There are two coils in watt meter namely current coil & potential coil.the two ends of current coil are 'M' & 'L' and they should connect in series with instrument. and the two ends of p.c. is 'c' which is connected to 'L'. and another is at the other end of instrument.There are two coils in watt meter namely current coil & potential coil.the two ends of current coil are 'M' & 'L' and they should connect in series with instrument. and the two ends of p.c. is 'c' which is connected to 'L'. and another is at the other end of instrument.There are two coils in watt meter namely current coil & potential coil.the two ends of current coil are 'M' & 'L' and they should connect in series with instrument. and the two ends of p.c. is 'c' which is connected to 'L'. and another is at the other end of instrument.
In a watt-meter there are four terminals: M,L which are the current coils and C,V which are called as pressure coils . . To measure the current the measuring instrument should be placed in series with the load but in case of voltage, the instrument should be connected in parallel to the load . . therefore M from the current coil and C from the pressure coil are can be short-circuited to measure the power of the given circuit. by hameed khan md, hyderabad e-mail:hameed.shonnu@gmail.com THANK u
L = Inductance, C = Capacitance, R = Resistance & Q = Frequency.
24 different ways. wow that took a while turkey- TU cheese- C lettuce- L tomato- T Tu, C, L, T Tu, C, T L Tu, L,C,T Tu,L,T,C Tu,C,T,L Tu,C,L,T C,TU,L,T C,TU,T,L C,L,TU,T C,L,T,TU C,T,L,TU C,T,TU,L L,TU,T,C L,TU,C,T L,C,TU,T L,C,T,TU L,T,TU,C L,T,C,TU T,TU,C,L T,TU,L,C T,L,TU,C T,L,C,TU T,C,TU,L T,C,L,TU
1 L = 1000 cm3 _____________________________ 1 L = 1000 cubic cm 1 cubic meter = 1000000 cubic cm so, 1 L = one thousandth of cubic meter = 10-3 cubic meter
There are 1000 millimeters in 1 meter.
1 cubic meter = 1000 L
kg L. l.
The dimension is [L].
Saturated molecules have single bonds between carbon atoms and are saturated with hydrogen atoms. Unsaturated molecules have double or triple bonds between carbon atoms, meaning they can accommodate more hydrogen atoms. Unsaturated molecules are typically more reactive than saturated molecules.
In the phrase "9 L of a C," L stands for Liters, which is a unit of volume, and C stands for Coca-Cola, which is the substance being referred to.
The length of the meter stick will appear to be contracted due to relativistic effects when it is moving at a speed of 0.80c. The length contraction formula, L = L0√(1 - v^2/c^2), can be used to calculate the contracted length, where L0 is the rest length of the meter stick (1 meter). Substituting the values, the contracted length will be L = 0.6 meters.