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 Solution contains 30 g of sugar dissolved in 370 g of water, Calculate the concentration of this solution .

Calculate the specific rotation if the plane of polarization is turned through 13.2^(@) traversing a length of 20 cm of 10% sugar solution.

If specific rotation of glucose solution is 52^@ and fructose solution -92^@ then what will be specific rotaion of invert sugar ?

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" .

A solution contains 60 g of sugar in 480 g of water. Calculate the concentration of solution in terms of mass by mass percentage of the solution.

If during the fermentation of sugar solution that is 0.12 M the concentration of sugar is reduced to 0.06 M in 10 h and to 0.03 M in 20 h the order of reaction is

80 gm of impure sugar when dissolved in a litre of water gives an optical rotation of 9.9^(@) when placed in a tube of length 20 cm. If concentration of sugar solution is 75 gm/litre then specific rotation of sugar is :