Calculate the amount of sugar dissolved in `10^(-3)m^(3)` of water so as to produce ratation of plane of polarisation of `12^(@)`. Given the specific rotation of sugar solution is`0.01 rad m^(-1) kg^(-1) m^(3)` and length of polarimeter tube is 0.21m

Calculate the thickness of quartz plate cut with its faces perpendicular to the optic axis, which will produce the same rotation as that of a 0.1m long solution of concentration 400kgm^(-3) . Given specific rotation of quartz 380 radm^(-1) and that of sugar rad m^(-1)m^(3) .

A 300 mm long tube containing 60 cm^(3) of sugar solution produces an optical rotations of 10^(@) when placed in a saccharimeter. If specific rotation of sugar is 60^(@) calculate the quantity of sugar constained in te tube solution.

Calculate pH solution: 0.1 M HCl

Calculate the specific rotation of sugar solution from the following data: length of the polaimeter tueb=0.21 concentration of sugar solution = 80kgm^(-3) angle of rotation = 10^(@)

A 200 mm long tube containing 48 cm^(3) of sugar solution produces an optical rotation of 11^(@) when placed in a suucharimeter. If the specific rotation of sugar is 66^(@) calculate the quantity of sugar contained in the solution of the tube.

On putting a polarimeter tube 25cm long comtaining sugar solution of unknown strength, the plane of polarisation gets rotated through 10^(@) . Find the strength of sugar solution I n g cm^(-3) specific rotation of sugar is 60%(@) //"decimeter"//"unit concenteration" .