Length of the solenoid. , Physics

The magnetic field B inside a solenoid, having a current of 5 A, is 3.14 X 10-2 T. Determine the number of turns per unit length of the solenoid. 

Posted Date: 3/29/2013 3:27:24 AM | Location : United States







Related Discussions:- Length of the solenoid. , Assignment Help, Ask Question on Length of the solenoid. , Get Answer, Expert's Help, Length of the solenoid. Discussions

Write discussion on Length of the solenoid.
Your posts are moderated
Related Questions
Explain interference of light? Write two essential conditions for sustained interference pattern to be produced on the screen. Illustrate a graph showing the variation of intens

1.  During an experiment, the osmotic pressure was recorded with respect to different concentrations of an enzyme. The results of the experiment are shown in the table below. a.

Electric charge is a physical property of matter that causes it to experience a force when near other electrically charged matter. There exist two types of electric charges, called

An isotope of iodine (Z = 53) is used to treat thyroid conditions. Its mass number is 131. How many neutrons are in its nucleus?   131 - 53 = 78 neutrons

Two parallel plates having a p.d. of 250V between them are spaced 1mm apart. Determine the electric field strength. Find also the electric flux density when the dielectric a

(a) A 400mm length of conductor carrying a current of 25A is situated at right-angles to a magnetic field among two poles of an electric motor. The poles have a circular cross

A model elevator A working model of an elevator can simply be made from easy materials. For the rotating drums or sheaves, metal coffee tin will do. With a hammer and a big nai

Which of the following particles has more electrons than neutrons: (1) C                       (2) F-       (3)O -2                 (4)Al +3 Ans: O -2

an aeroplane is moving horizontally with a velocity of u . it drops a packet from a height h. the time taken the packet in reaching the ground is?

Davisson-Germer experiment (C.J. Davisson, L.H. Germer; 1927) An experiment which conclusively confirmed the wave nature of electrons; diffraction patterns were observed throu