Define electric field intensity and electric potential.Then prove that electric field intensity is negative gradient of electric potential View Solution Define electric field and electric field intensity at a p
(i)When a charged body moves from one potential region to another electrical work is done. (ii) If the electrical work done is QV. Where V is the potential difference and Q is the quantity of electricity. w=QV w=Coulomb . Volts w=Joule
No structural difference is observed at position 186. The CB and CG2 (methyl) carbons of threonine 186 are almost perfectly overlapping with the same carbons in the arginine side chain in the BCAT2 T186R struc- ture. Superposition of the BCAT2 T186R protein structure with the WT BCAT2 ...
2. Flow of Electric Current: - In a conductor, when a potential difference (voltage) is applied, it creates an electric field that causes the charged particles (like electrons) to move. The conventional direction of electric current is taken as the direction in which positive charges would ...
Class 12PHYSICSELECTROSTATICS Topper's Solved these Questions ELECTRIC FIELDBook:CHHAYA PUBLICATIONChapter:ELECTRIC FIELDExercise:HIGHER ORDER THINKING SKILL QUESTIONS Explore 33 Videos ELECTRIC FIELDBook:CHHAYA PUBLICATIONChapter:ELECTRIC FIELDExercise:NCERT TEXTBOOK QUESTIONS WITH ANSWER HINT Explore 24 Videos ...
The type of current that we receive in domestic circuit and pd (potential difference) between live and neutral wire and its frequency AAC, 220 V, 50 Hz BDC, 240 V, 150 Hz CAC, 200 V, 50 Hz DAC, 320 V, 50HzSubmit At a neutral point Afield of magnet is zero Bfield of earth is...
This does not only show the correspondence between the torque calculation results with only air gap reluctance, but also that there is not much difference between both simulation methods if also the effect of the reluctance of ferromagnetic materials has been included. 50 FEA 40 MEC 30 20 10 0...