Answer: Potential difference between any two points is defined as the amount of work done in moving a unit charge from one point to another... View Article
Michael Faraday published faraday’s Laws of Electrolysis in 1834. ''The masses of different substances, liberated or dissolved by the same... View Article
Faradays first electrolysis Law states that the quantity of reaction taking place in terms of mass of ions formed or discharged from an... View Article
Electrolysis involves the reactions of giving and taking up of electrons. Naturally the amount or quantity of reactions shall depend upon the... View Article
Answer: There are two laws in Faraday's Laws of Electromagnetic Induction. The first law defines emf induction in a conductor, while the second... View Article
In free fall mass cannot be a factor there is a possibility of electromagnetic induction in metallic bon due to earth’s magnetic field but for... View Article
As we know magnetic field lines closed loops magnetic field lines produced by the straight current carrying wire will make ÆŸ = 90° with the... View Article
If we place conductor in electric field it gives rise to current flow in the conductor which in turns generates magnetic field around the... View Article
Correct option (d) K For the electron in the same orbital, attraction is more for a larger atomic number. An increase of attraction decreases... View Article
Atomic spectrum shows multiple electronic transitions with characteristic energy lines of the atom. Presence of many spectral lines confirms the... View Article
The following, should be remembered in the energy level diagram- i) Matter containing atoms and molecules, may undergo, electronic transitions,... View Article
Introduction Matter absorbs energy and increases its internal energy. Depending upon the energy magnitude, matter utilizes the absorbed energy,... View Article
Q) What is the flux due to electric field E = 3 × 103 through side of the square 10cm, when it is held normal to E? Answer: According to... View Article
According to question, electric flux (Ï•) due to a point charge enclosed by a spherical Gaussian surface is given by Ï• = E.A So, there is no... View Article
By Gauss’ theorem, total electric flux linked with a closed surface is given by Where, q is net charge enclosed by the Gaussian surface.... View Article
Answer: The electric flux through any surface area is defined as the number of field lines that pass through that area. In fact, electric flux... View Article
