The freezing point of a solution contain...

The freezing point of a solution containing 0.1g of `K_3[Fe(CN)_6]` (Mol. Wt. 329) in 100 g of water (`K_f =1.86K kg mol^(−1)` ) is:

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To find the freezing point of a solution containing 0.1 g of \( K_3[Fe(CN)_6] \) in 100 g of water, we can follow these steps: ### Step 1: Calculate the number of moles of the solute The number of moles of a substance can be calculated using the formula: \[ \text{Number of moles} = \frac{\text{mass (g)}}{\text{molar mass (g/mol)}} \] ...

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The freezing point (.^(@)C) of a solution containing 0.1 g of K_(3)[Fe(CN)_(6)] (molecular weight 329) on 100 g of water (K_(f)=1.86 K kg mol^(-1))

What would be the freezing point of aqueous solution containing 17 g of C_(2)H_(5)OH in 100 g of water (K_(f) H_(2)O = 1.86 K mol^(-1)kg) :

What should be the freezing point of aqueous solution containing 17g of C_(2)H(5)OH is 1000g of water ( K_(f) for water = 1.86 deg kg mol^(-1) )?

Calculate the freezing point of a solution containing 60 g glucose (Molar mass = 180 g mol^(-1) ) in 250 g of water . ( K_(f) of water = 1.86 K kg mol^(-1) )

Calculate the freezing point of an aqueous solution containing 10.50 g of MgBr_(2) in 200 g of water (Molar mass of MgBr_(2) = 184g ). ( K_(f) for water = 1.86" K kg mol"^(-1) )

Determine the freezing point of a solution containing 0.625 g of glucose ( C_6H_(12)O_6 ) dissolved in 102.8 g of water. (Freezing point of water = 273 K, K_(l) for water = 1.87 K kg "mol"^(-1) at. wt. C = 12, H = 1, O = 16)

The freezing point of a solution that contains 10 g urea in 100 g water is ( K_1 for H_2O = 1.86°C m ^(-1) )

Find the elevation in boiling point and (ii) depression in freezing point of a solution containing 0.520g glucose (C_(6)H_(12)O_(6)) dissolved in 80.2g of water. For water K_(f)= 1.86k//m. K_(b)=0.52 K//m.

What is the freezing point of a solution contains 10.0g of glucose C_(6)H_(12)O_(6) , in 100g of H_(2)O ? K_(f)=1.86^(@)C//m

Calculate the freezing point of a solution containing 0.5 g KCl (Molar mass = 74.5 g/mol) dissolved in 100 g water, assuming KCl to be 92% ionized. K_(f) of water = 1.86 K kg/mol.

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