# Sn Sentence Examples

**Sn**, Nasal septum.- The metals may be arranged in a series according to their power of displacing one another in salt solutions, thus Cs, Rb, K, Na, Mg, Al, Mn, Zn, Cd, Tl, Fe, Co, Ni,
**Sn**, Pb, (H), Sb, Bi, As, Cu, Hg, Ag, Pd, Pt, Au. - Group IV.: C, Si, Ge, Zr, Th, tetravalent; Ti, tetravalent and hexavalent;
**Sn**, Pb, divalent and tetravalent; Ce, trivalent and tetravalent. - Pt, Ir, Pd, Rh, Ru, Os; Au, Fe, Ni;
**Sn**, Te. - C, Si, Ti, Zr, Th,
**Sn**; Fe, Ti. - 826, Sb =0.958,
**Sn**=1.354, Fe =0.007, Zn =0.002, S =0.051. - If V denote the potential, F the resultant force, X, Y, Z, its components parallel to the co-ordinate axes and n the line along which the force is directed, then -
**sn**= F, b?= X, - Sy = Y, -s Surfaces for which the potential is constant are called equipotential surfaces. - 4 S'N' is a small magnet of moment M', and
**SN**a distant fixed magnet of moment M; the axes of**SN**and S'N' make angles of 0 and 4 respectively with the line through their middle points. - 4 S'N' is a small magnet of moment M', and
**SN**a distant fixed magnet of moment M; the axes of**SN**and S'N' make angles of 0 and 4 respectively with the line through their middle points. - It can be deduced from (17), (12) and (13) that the couple on S'N' due to
**SN**, and tending to increase 4), is MM' (sin 0 cos 4-2 sin 4) cos 0)/r'. - It can be deduced from (17), (12) and (13) that the couple on S'N' due to
**SN**, and tending to increase 4), is MM' (sin 0 cos 4-2 sin 4) cos 0)/r'. - If tan 4)=1 tan 0, S'N' being then along a line of force, a result which explains the construction given above for finding the direction of the force F in (14).
- If the axis of
**SN**produced passes through the centre of S'N', 0 =0, and the couple becomes 2MM'sin4)/r 3, (19) tending to diminish cp; this is called the " end on " position. - If the axis of
**SN**produced passes through the centre of S'N', 0 =0, and the couple becomes 2MM'sin4)/r 3, (19) tending to diminish cp; this is called the " end on " position. - If the centre of S'N' is on the perpendicular bisector of
**SN**, 0 = Zir, and the couple will be MM 'cos cp/r 3, (20) tending to increase 4); this is the " broadside on " position. - If the centre of S'N' is on the perpendicular bisector of
**SN**, 0 = Zir, and the couple will be MM 'cos cp/r 3, (20) tending to increase 4); this is the " broadside on " position. - The components X, Y, parallel and perpendicular to r, of the force between the two magnets
**SN**and S'N' are X =3MM'(sin 0 sin 4)-2 cos 0 cos 4)/r 4, (21) Y=3MM'(sin 0 cos 4-{-sin 4 cos 0)/r 4 . - The components X, Y, parallel and perpendicular to r, of the force between the two magnets
**SN**and S'N' are X =3MM'(sin 0 sin 4)-2 cos 0 cos 4)/r 4, (21) Y=3MM'(sin 0 cos 4-{-sin 4 cos 0)/r 4 . - The most important cases are I +2 +3 +...+n = 2n(n +I), 12+22+32+...+n2 =
**sn**(n+I) (2n+1), I 3 +2 3 +3 3 +... - For example, the compound Cu3Sn is not indicated in the freezing-point curve, and indeed a liquid alloy of this percentage does not begin to solidify by the formation of crystals of Cu 3
**Sn**; the liquid solidifies completely to a uniform solid solution, and only at a lower temperature does this change into crystals of the compound, the transformation being accompanied by a considerable evolution of heat. - Matthiessen and Bose obtained large crystals of the alloy Au 2
**Sn**5, having the colour of tin, which changed to a bronze tint by oxidation. - Assuming, for example, that the northern star has the smaller right ascension, the instrument is first, with the aid of the stop, placed in the meridian towards the north; the verniers of the graduated circle g are set to read to the reading 40-2(
**Sn**+Ss) where 0 is the approximate latitude of the place and**Sn**, Ss the declinations of the northern and southern star respectively; then the level frame h is turned till the levels k and I are in the middle of their run, and there clamped by the screw m, aided in the final adjustment by the adjoining slow motion screw shown in the figure. - Other pairs of isomorphous argentiferous minerals are: the cubic polybasite, 9Ag2S Sb2S3, and pearceite, 9Ag2S As2S3; and the germanium minerals argyrodite, 4Ag 2 S GeS2, and canfieldite, 4Ag 2 S (
**Sn**, Ge) S2.