How much of the `alpha`-anomer and `beta`-anomers are present in an equilibrium mixture with a specific rotation of `+52.6^(@)`?

Glucose shows mutarotation when it dissolves in water. The specific rotation of alpha -D glucose and beta -D- glucose is +112.2^(@) and +18.7^(@) respectively. Calculate the percentage of two anomers present at equilibrium mixture with a specific rotation of +52.6^(@) .

The optical rotation of the alpha -form of a pyranose is +150.7^(@) , that of the beta -form is +52.8^(@) . In solution an equilibrium mixture of these anomers has an optical rotation of +80.2^(@) . The precentage of the alpha -form in equilibrium mixture is :

alpha and beta forms of sulphur are at equilibrium at a temperature known as

The above process in which alpha and beta form remain in equilibrium with acyclic form and a change in optical rotation is observed which is known as -

The specific rotation of two glucose anomers are alpha = + 110^(@) and beta = 19^@ and for the constant equilibrium mixtures is +52.7^@ . Calculate the percentage compositions of the anomers in the equilibrium mixture.

Dextrororatory alpha- pinene has a specific rotation [alpha]_(D)^(20) =+51.3^(@) . A sample of alpha- pinene containing both the enantiomers was found to have a specific rotation value [alpha]_(D)^(20) =+30.8^(@) . The percentages of the (+) and (-) enantiomers present in the sample are, respectively,

The specific rotation of alpha- glucose is +112^(@) and beta- glucose is +19^(@) and the specific rotation of the constant equilibrium mixture is +52.7^(@) . Calculate the percentage composition of anomers (alpha and beta) in the equilibrium mixture.

In an aqueous solutions of D- glucose the percentages of alpha and beta anomers at the equilibrium condition are respectively