Categories starting with M


Items starting with M

MAGNETIC FIELD IN HELMHOLTZ COIL

MAGNETIC FIELD IN HELMHOLTZ COIL

Principle and Working:
The magnetic field of the coil arrangement is rotationally symmetrical about the axis of the coils, which is chosen as the x-axis of a system of cylindrical coordinates (x, r, Φ). The origin is at the centre of the system. The magnetic flux density does not depend on the angle Φ, so only the components Bx (x, r) and Br (x, r) are measured.
In the present setup, a fairly uniform magnetic field is to use a pair of circular coils on a common axis with equal currents flowing in the same logic. For a given coil radius, you can calculate the separation needed to give the most uniform central field.

MAGNETIC FIELD IN HELMHOLTZ COIL

MAGNETIC FIELD IN HELMHOLTZ COIL

  • Digital gaussmeter with axial probe to measure magnetic field.
  • Distance between coils is adjusted in U channel bench.
  • Easy & simple approach.
  • Electrical safety tested.
  • Helmholtz coil arrangement.
  • Axial hall probe.

MAGNETIC FILED ALONG THE AXIS

MAGNETIC FILED ALONG THE AXIS

Principle and Working:
The magnetic field along the axis of coils of different dimensions is measured with a digital gauss meter with axial probe. 
In the present setup, the relationship between the maximum field strength and different point on the axis of a single coil with different dimensions are investigated and a comparison is made between the measured and the theoretical effects of position.

MAGNETIC FILED ALONG THE AXIS

MAGNETIC FILED ALONG THE AXIS

  • Modular approach.
  • Multipurpse power supply.
  • Multiturn coils of various diameters.
  • Magnetic field measurement with axial probe.
  • Electrical safety tested.
  • Experiment can be performed at low current.
  • Biot Savart's law.
  • Magnetic flux density.
  • Induction.
  • Wire loop.
  • Magnetic field.

MAGNETIC KIT

MAGNETIC KIT

Principle and Working:
The magnetic field along the axis of coils of different dimensions is measured with a digital gauss meter with axial probe. 
In the present setup, the relationship between the maximum field strength and different point on the axis of a single coil with different dimensions are investigated and a comparison is made between the measured and the theoretical effects of position.

MECHANICS & LIGHT EXPERIMENTS KIT

MECHANICS & LIGHT EXPERIMENTS KIT

  • All experiments carried with Data Logger & Sensors.
  • Computer connectivity & analysis of data accurately.
  • All accessories have been krafted precisely to enhance accuracy of experiment conduction..
  • Multiple use of components

MECHANICS KIT

MECHANICS KIT

This kit is designed to study basic principle of mechanics.

MELTING POINT APPARATUS

MELTING POINT APPARATUS

It can be used in determining repeatable melting point of different compounds up to 400°C in 5 minutes by continuously adjustable with built-in variable transformer. Temperature resolution 0.1°C with low mass thermocouple and precision thermometer. Its housing is made of aluminum. It accepts up three capillaries. Samples are illuminated and clearly visible through the precision 6-power lens. Operatable at 220V AC.

METER TRUNDLE WHEEL

 
 

 

Meter trundle wheel makes measuring long distances easy with its non slip rubber tire, its multiple adjustment length handl

MICHELSON INTERFEROMETER

MICHELSON INTERFEROMETER

  • Precise measurement, mirror control is extremely fine with the micrometer of least count of 0.0001mm.
  • Heavy base for high stability.
  • The mirrors and beam splitter are flat upto λ /8.
  • Interference.
  • Wave length.
  • Coherent source.
  • Superposition.
  • Virtual light source.

MICROWAVE OPTICS SYSTEM

MICROWAVE OPTICS SYSTEM

  • Transmitter and receiver horn mounted on heavy base.
  • 0-360° goniometer scale.
  • Gunn diode power supply.
  • Pin modulation.
  • Different accessories for study the microwave optics.
  • Gunn diode.
  • Reflection & Refraction.
  • Polarization
  • Diffraction.
  • Interference.