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Calculate the amount of ice that will se...

Calculate the amount of ice that will separate out on cooling a solution containing 50g of ethylene glycol in 200g water to `-9.3^(@)C` (`K_(f)` for water `= 1.86 "K kg mol"^(-1)`)

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Calculate the amount of ice that will separate out on cooling a solution containing 50g ethylene glycol in 200g water to -9.3^@C .( k_f for water = 1.86 K kg mol^-1 )

Calculate the amount of ice that will be separate out on cooling a solution containing 50 g of ethylene glycol in 200 g of water to -9.3^@C . (K_f for water=1.86 Km^-1)

Calculate the amount of ice that will separate out on cooling containing 50 g of ethylene glycol in 200 g of water to -9.3^(@)C (K_(f) for water = 1.86 K mol^(-1) kg )

Calculate the amount of ice that will separate out on cooling containing 50 g of ethylene glycol in 200 g of water to -9.3^(@)C (K_(f) for water = 1.86 K mol^(-1) kg )

Calculate the amount of ice that will separate out on cooling containing 50 g of ethylene glycol in 200 g of water to -9.3^(@)C (K_(f) for water = 1.86 K mol^(-1) kg )

Calculate the amount of ice that will separate out on cooling containing 50 g of ethylene glycol in 200 g of water to -9.3^(@)C (K_(f) for water = 1.86 K mol^(-1) kg )

The amount of ice that will separate out on cooling a solution containing 50 g ethylene glycol in 200 g water to -9.3^(@)C is : ( K'_(f) = 1.86 K "molality"^(-1) )

The amount of ice that will separate out on cooling a solution containing 50 g of ethylene glycol in 200 g water to -9.3^@C is: (K_f = 1.86 K molality^-1)