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how does the angle of dip vary from equator to poles?
What are the properties of Electric Lines of Force?
What is Ohm's law in vector form.........???
derive an expression for the total work done in rotating an electric dipole through an angle theta in a uniform electric field.
Two capacitors C1 and C2 are charged to potential V1 and V2 resp. and then connected in parallel. Calculate common potential, charge on each capacitor and energy in the system after connection??
Find the expression for the capacitance of a parallel plate capacitor of area A and plate separation d if
i) a dielectric slab of thickness t, and
ii) a metllic slab of thicknes t
(where t<d) are introduced one by one between the platesof the capacitor. In which case would the capacitance be more and why?
An electic dipole of length 2cm is placed with its axis making an angle 60 degree with respect to a uniform electric field of 105 N/C. If it experiences a torque of 13.856 Nm, calculate the- magnitude of the charge on the dipole & PE of the dipole.
Charge q is uniformly distributed over a thin half ring of radius R .The electric field at the centre of the ring is?
WHAT ARE THE PROPERTIES OF EQUIPOTENTIAL SURFACES ?????????
Name the physical quantity whose SI unit is Newton Coulomb-1.
A parallel plate capacitor is charged by a battery. After sometime the battery is disconnected and a dielectric slab of dielectric constant K is inserted in between the plates. How would i) The capacitance ii) The electric field between the plates and iii) The energy stored in the capacitor be affected? Give reasons with necessary equations.
Two spherical conductors each of capacity C are charged to potentials V and -V.These are than connected by means of a fine wire.What is the loss of energy?Sir please answer this question.
ChargeQ is distributed over two concentric hollow spheres of radii R1 and R2 (R2>R1) such that the surface charge densities areequal. Find the electric potential at the common centre.
An electric dipole is held in a uniform electric field.
a) Show that the net force acting on it is zero.
b) The dipole is aligned parallel to the field.Find the work done in rotating through angle of 180 degree
2 spherical conductor each of capacity C are charged to potential V and -V .these are then connected by means of fine wire the loss of energy
A spherical conducting shell of inner radius r1 and outer radius r2 has a charge Q. A charge q is placed at the centre of the cell.
(a) What is the surface charge density on the (i) inner surface (ii) outer surface of the shell.
(b) Write the expression for electric field at a point x r2 from the centre of the shell.
Calculate the amount of work done in rotating a dipole, of dipole moment 3 x 10-8Cm, from its position of stable equilibrium to the position of unstable equilibrium of uniform electric field 104N/C..
Q1.)CALCULATE THE WORK DONE TO DISSOSIATE THE SYSTEM OF THREE CHARGES PLACED ON THE VERTICES OF THE TRIANGLE ABC
HERE q=1.6 * 10-10 C
all side of 10cm ,A=q ,B=2q,C=-4q
Draw 3 equipotential surfaces corresponding to a field that uniformly increases in magnitude but remains constant along z direction.
how are these surfaces different from that of a constant electric field along z direction?
the capacitance of a conductor does not depend on the nature of its material and the amount of charge existing on the conductor. why?
Two point charges 4 micro coulomb & -2 micro coulomb are seperated by a distance of 1m in air. At what point of line joining the charges is the electric potential zero?
two concentric metallic spherical shells of radii R and 2R are given charges Q1 and Q2 respectively .the surface charge densities on the outer surfaces of the shells are equal .determine the ratio Q1:Q2
Derive an expression for the energy stored in parallel plate capacitor with air as the medium between its plates . Air is now re placed by dielectric medium of dielectric constants k. How does it charges the total energy of the capacitor if
a ) the capacitor remains connected to the same battery .
b ) the capacitor is disconnected from the battery.
Three identical capacitors C1, C2 and C3 of capacitance 6 μF each are connected to a 12 V battery as shown.
(i) charge on each capacitor
(ii) equivalent capacitance of the network
(iii) energy stored in the network of capacitors
Derivation of electric potential energy of a system of two point charges in the absence of external electric field
lenz law is consequence of the law of conservation of
charge,momentum, mass or energy
plz answer me xperts
A 600 pF capacitor is charged by a 200V supply. It is then disconnected from the supply and is connectedto another uncharged 600 pF capacitor. How much electrostatic energy is lost in the process. ?
A 600 pF capacitor is charged by a 200V supply. It is then disconnected from the supply and is connected
to another uncharged 600 pF capacitor. How much electrostatic energy is lost in the process. ?
how was the formula (torque =pEsin o) obtained??
Two capacitors, of capacitance 3 micro farad and 6 micro farad are charged to potentials of 2V and 5V respectively. These two charged capacitors are connected in parallel . Find the charge across each of the two capacitors now.
explain the working of VAN DE GRAFF GENERATOR?
Define dielectric constant in term of capacitance
Two point Charges -10 C and +10 C are placed 10 cm apart. Potential at the centre of the line joining the two charges will be ?
A 4 micro farad capacitor charged by 200 volt supply. It is then dissconnected from the supply and is connected to anothe uncharged 2 micro farad capacitor. How much electrostatic energy of first capacitor is lost in the form of heat or e. m radiations?
derivation for energy stored in a capacitor?
1. which combination of four identical capacitors (of all possible combinations) has maximum capa
citance? if these combinations are connected to a constant P.d., which combination store minimum energy?
2. can negative ions be accelerated using Van de Graaff generator? why?
3. On which principle ink jet printing and xerox copying machine works?
a non conducting ring of radius 0.5 m carries a total charge of 1.11*10-10 C distributed non uniformly on it's circumference producing electric field E vector everywhere in the space . the value of the line integral ∫ -E. dl ( llower limit =infinity , upper limit = 0) (=0 being at the centre of the ring ) in volts is
show that there is always a loss of energy when two capacitors charged to different potentials share charge
why is electrostatic potential constant throughout the volume of the conductor and has the same value(as inside) on its surface??
Draw an equipotential surface in a uniform electric field...
Electric potential in an electric field is given by v=K/r ( K=const). If the posiion vector r = 2i + 3j + 6k, the electric field is given by
A) ( 2i + 3j + 6k) / 243
B) (2i + 3j + 6k) / 343
C) (3i + 2j + 6k) / 243
D) (6i + 2j + 6k) 343
Plz do all the proper.
to determine resistance per cm of a given wire by plotting a graph of potential difference versus current
A 10 micro faran capacitor is charged by a 30V dc supply & then connected across an uncharged capacitor of 50 micro faran. Calculate the(1) final potential difference across the combination & the (2)initial & final energies. How will you account for the difference in energies?
derivation of electric potential at a point on axial line of an electric dipole
Two electrons are moving towards each other,each with a velocity of 106m/s.What will be losest distance of approach between them?
draw schematically an equipotential surface of a uniform electrostatic field along x-axis.
answer soon pls
Two point charges 2uC and -2uC are placed at points A and B 6 cm apart .
(1) Draw the equipotential surfaces of the system.
(2) Why do equipotential surface get closer to each other near the point charges?
The potential energy of a charged parallel plate capacitor is Uo.If a slab of dielectric constant k is inserted between the plates, then the new potential energy will be____________
The half –life of a radioactive substance is 30 s. Calculate:
(i ) the decay constant, and
(ii) Time taken by the sample to decay 3/4 of its initial value.
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