Aditya Ranjan
Indian Institute of Technology (IIT), Mumbai
Aditya Ranjan has created this Calculator and 0+ more calculators!
Pragati Jaju
College Of Engineering (COEP), Pune
Pragati Jaju has verified this Calculator and 25+ more calculators!

11 Other formulas that you can solve using the same Inputs

Surface Area of a Rectangular Prism
Surface Area=2*(Length*Width+Length*Height+Width*Height) GO
Perimeter of a rectangle when diagonal and length are given
Perimeter=2*(Length+sqrt((Diagonal)^2-(Length)^2)) GO
Magnetic Flux
Magnetic Flux=Magnetic Field*Length*Breadth*cos(θ) GO
Diagonal of a Rectangle when length and area are given
Diagonal=sqrt(((Area)^2/(Length)^2)+(Length)^2) GO
Area of a Rectangle when length and diagonal are given
Area=Length*(sqrt((Diagonal)^2-(Length)^2)) GO
Diagonal of a Rectangle when length and breadth are given
Diagonal=sqrt(Length^2+Breadth^2) GO
Strain
Strain=Change In Length/Length GO
Surface Tension
Surface Tension=Force/Length GO
Perimeter of a rectangle when length and width are given
Perimeter=2*Length+2*Width GO
Volume of a Rectangular Prism
Volume=Width*Height*Length GO
Area of a Rectangle when length and breadth are given
Area=Length*Breadth GO

Field Inside a Solenoid Formula

field_inside_a_solenoid=[Permeability-vacuum]*Electric Current*turns/Length
More formulas
Magnetic Field Due to a Straight Conductor GO
Magnetic Field Due to an Infinite Straight Wire GO
Magnetic Field on the Axis of a Ring GO
Force Between Parallel Wires GO
Field at the Center of an Arc GO
Field at the Center of an arc GO
field at the center of the ring GO
Field of a Bar Magnet at axial position GO
Field of a Bar Magnet at equatorial position GO
Angle of Dip GO
Magnetic Field for a Tangent Galvanometer GO
Electric Current for a Tangent Galvanometer GO
Current for a Moving Coil Galvanometer GO
Time Period of Magnetometer GO
Magnetic Permeability GO

What is the field inside a solenoid ?

A solenoid is a coil of wire designed to create a strong magnetic field inside the coil. By wrapping the same wire many times around a cylinder, the magnetic field due to the wires can become quite strong. The number of turns N refers to the number of loops the solenoid has. More loops will bring about a stronger magnetic field. The formula for the field inside the solenoid is B = m0 I N / L The magnetic field inside a solenoid is proportional to both the applied current and the number of turns per unit length. There is no dependence on the diameter of the solenoid, and the field strength doesn't depend on the position inside the solenoid, i.e., the field inside is constant.

How to Calculate Field Inside a Solenoid?

Field Inside a Solenoid calculator uses field_inside_a_solenoid=[Permeability-vacuum]*Electric Current*turns/Length to calculate the field_inside_a_solenoid, The field inside a solenoid is proportional to both the applied current and the number of turns per unit length. There is no dependence on the diameter of the solenoid, and the field strength doesn't depend on the position inside the solenoid, i.e., the field inside is constant. field_inside_a_solenoid and is denoted by B symbol.

How to calculate Field Inside a Solenoid using this online calculator? To use this online calculator for Field Inside a Solenoid, enter Length (l), Electric Current (i) and turns (N) and hit the calculate button. Here is how the Field Inside a Solenoid calculation can be explained with given input values -> 0 = [Permeability-vacuum]*20*(0)/3.

FAQ

What is Field Inside a Solenoid?
The field inside a solenoid is proportional to both the applied current and the number of turns per unit length. There is no dependence on the diameter of the solenoid, and the field strength doesn't depend on the position inside the solenoid, i.e., the field inside is constant and is represented as B=[Permeability-vacuum]*i*N/l or field_inside_a_solenoid=[Permeability-vacuum]*Electric Current*turns/Length. Length is the measurement or extent of something from end to end, Electric Current is the time rate of flow of charge through a cross sectional area and turns N refers to the number of loops the solenoid has.
How to calculate Field Inside a Solenoid?
The field inside a solenoid is proportional to both the applied current and the number of turns per unit length. There is no dependence on the diameter of the solenoid, and the field strength doesn't depend on the position inside the solenoid, i.e., the field inside is constant is calculated using field_inside_a_solenoid=[Permeability-vacuum]*Electric Current*turns/Length. To calculate Field Inside a Solenoid, you need Length (l), Electric Current (i) and turns (N). With our tool, you need to enter the respective value for Length, Electric Current and turns and hit the calculate button. You can also select the units (if any) for Input(s) and the Output as well.
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