- freezing point for a solution of 35 g/L NaCl: -2 deg. Celsius- density for a solution of 35 g/L NaCl: 1,025 g/cm3- thermal conductivity for a solution of 35 g/L NaCl: 0,6 W/m.K
Sea water contain approx. 35 g/L.
35 kg is bigger than 36 g.1 kg is equal to 1000 g, therefore:35 kg = 35 000 g36 g = 0.036 kg
- freezing point for a solution of 35 g/L NaCl: -2 deg. Celsius- density for a solution of 35 g/L NaCl: 1,025 g/cm3- thermal conductivity for a solution of 35 g/L NaCl: 0,6 W/m.K
1 kg = 1000 g So the answer would be 35000 g
mg or g
mg or g
This measure is the concentration of NaCl expressed in mol/L, g/L, g/100 g (percentage).
This measure is the concentration of NaCl expressed in mol/L, g/L, g/100 g (percentage).
As an average the concentration is 35 g/L.
As an average ocean water has 35 g NaCl/100 g water.
The concentration of sodium chloride in sea waters is approx. 35 g/L.
This measure is the concentration of NaCl expressed in mol/L, g/L, g/100 g (percentage).
The sea water has a sodium chloride concentration of approx. 35 g/L. Generally the concentration of salt in a water solution (at 20 0C) is very variable, from parts per million to 360,9 g/L (36,09 g/100 g).
The sea water contain approx. 35 g/L NaCl.
The concentration of sodium chloride in sea waters is 30-35 g/L.
- freezing point for a solution of 35 g/L NaCl: -2 deg. Celsius- density for a solution of 35 g/L NaCl: 1,025 g/cm3- thermal conductivity for a solution of 35 g/L NaCl: 0,6 W/m.K