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Different colors have different wavelengths
The focal length of a convex mirror is half of its radius of curvature.
the curvature mirror the emage of the mirror is virtual
Magnetic length is related to the larmour radius: r = mv/(qB) = mvr/(qBr)=L/(qBr)Since L is quantised as m(l)h; m(l) =magnetic quantum number= integers, so let it be unity for the smallest value or r, then r^2=h/(qB) and the vale of r with m(l) = 1 is called magnetic length l(B): so l(B) = sqrt(h/qB)The physical interpretation of this length is that the area swept out by this length (2*pi*l*l) contains one quantum of magnetic flux.
More the curvature of the eye lens, lesser the focal length is. Lesser the curvature, greater the focal length is
The effective length of a magnet is the distance between the magnetic poles. It is always less than the geometric length of the magnet,though the actual relation between the two depends on the shape of the magnet.
magnetic length refers to the length of magnet which is able to produce magnetic lines from it. since whole length is not able for that magnetic length is small than geometric one
Geometric length in magnets refers to the physical dimensions of the magnet, such as its length, width, and thickness. This measurement is important in determining the overall size and shape of the magnet, which can impact its magnetic properties and behavior.
It can't be done. You must also know at least any one of the following: Perimeter Relation between length and breath Relation between Area and length Relation between Area and breath Relation between perimeter and Area Breath and so on...........
There is no direct relation between the area of a sector and the length of an arc. You must know the radius (or diameter) or the angle of the sector at the centre.
It is a geometric ratio.
arc length/2pi*r=measure of central angle/360
f=|-R/2|
no relation between a mass measurement and a length measurement
The relation between the arc of length and the central angle is that the arc of length divided by one of the sides is the central angle in radians. If the arc is a full circle, then the central angle is 2pi radians or 360 degrees.
The focal length of a concave mirror is about equal to half of its radius of curvature.
There is no relationship between units of mass and either length of capacity. Units of capacity are the cubed units of length.