A variable linearity coil has a coil which is wound around a magnetic core, a permanent magnet for charging a bias magnetic field to the magnetic core, and a magnetic field adjusting coil for adjusting the bias magnetic field. The coil and the magnetic field adjusting coil are respectively disposed horizontally such that an axial line of each of the coils lies perpendicular to lead terminals to which terminal ends of each of the coils are connected. The coil, the magnetic field adjusting coil, and the permanent magnet may be contained in a casing and the terminal ends of each of the coil and the magnetic field adjusting coil are connected to lead terminals which are embedded into the casing
yes
linearity, Recovery for soaping , recovery for stainless plate and LOD & LOQ
These terms apply to the coils inside a wattmeter. 'Pressure coil' is an archaic term for 'voltage coil', which is connected in parallel with the supply, while the 'current coil' is connected in series with the load.
A 'pressure coil' is an archaic term for a 'voltage coil' (UK terminology) or 'potential coil' (US terminology), as opposed to the 'current coil' in a wattmeter. This coil is connected in parallel with the supply, while the current coil is connected in series with the load.
In a transformer, the primary coil is the coil that has voltage applied to it. The secondary coil is the coil that we take voltage from. Transformers are used to step up voltage, step down voltage, or simply to isolate circuits.
This would keep the voltage across the inductance a constant, and corrects the non-linearity problem.
Limit of Linearity is the concentration at which the calibration curve departs from linearity by a specified amount. A deviation of approximately 5% is usually considered the upper limit. Common at higher concentrations.
its important for recover the calculation equation and for improve linearity equation (pears low )
Terminal linearity is when there is no flexibility allowed in the placement of the straight line in order to minimize the deviations ( or non-linearities). The straight line must be located so that each of its end points coincides with the device's upper and lower range values. This means that the non linearity measured will be larger than that measured by the independent linearity definitions.
When a function or given data set differes from a liniar curve fit. the difference between the data and a linear curve fit is your linearity error
GodIsGreat
yes
yes ! to insure linearity
Yes, it is.
poor linearity, difficult in tuning and lack of provisions for limiting
B. Booth has written: 'Exploring the linearity of the climate response to external forcing'
A moving-iron instrument works on the principle of repulsion between the like magnetic poles (like poles repel) induced in two soft-iron pole pieces (one fixed, the other moving and deflecting the pointer), by the current flowing in a coil. This force of repulsion isn't linear -it reduces the further apart the pole pieces become, obeying what is known as the 'inverse square' law. So, the non-linear scale over which the pointer moves reflects the non-linearity of the force deflecting the pointer. The effect of this non-linearity can be reduced by carefully shaping the fixed pole piece so that the effective surface areas of the two pole pieces are modified as they move apart, partly compensating for the loss of linearity by the force, as they move further apart.