up ur bum u crazy schoolboy
The pumpkin's mass is 4.8 kg, and 0.9 of its mass is water. This means 0.1 of its mass is not water. To find the mass of water: 4.8 kg x 0.9 = 4.32 kg of water To find the mass of not water: 4.8 kg - 4.32 kg = 0.48 kg of not water
10 kg of mass is equivalent to 10 liters of water, assuming the water has a density of 1 kg/L.
(kb=0.51degrees celcious/(mol/kg) for water and i=2 for NaCl)
To raise the temperature of 2 kg of water by 1°C, you need 8,400 joules of energy. This is calculated using the specific heat capacity of water, which is approximately 4,200 joules per kilogram per degree Celsius (J/kg°C). Therefore, the energy required is 2 kg × 4,200 J/kg°C × 1°C = 8,400 J.
One liter of standard pure clean water at standard temperature and pressure has a mass of 1 kg.
Stanford Professors Paul R. and Anne H. Ehrlich state that the amount of water used to produce one pound of beef ranges from 2,500 to as much as 6,000 gallons depending on where the animal is raised. So that's 5500 - 13200 liters per Kg
1000cm^3.
The pumpkin's mass is 4.8 kg, and 0.9 of its mass is water. This means 0.1 of its mass is not water. To find the mass of water: 4.8 kg x 0.9 = 4.32 kg of water To find the mass of not water: 4.8 kg - 4.32 kg = 0.48 kg of not water
0.636 kg of beef is approximately 1.402 pounds when converted.
It contains 1 Kg of water
10 kg of mass is equivalent to 10 liters of water, assuming the water has a density of 1 kg/L.
About 64 kg for a man that size
you can only eat protiens not too much on lunch, while on breakfast and dinner you can have cheese or yogurt but with diet bread, and you need to drink water as much as you can but not cold water and you need to do some exercise.
Heat required to have such a change of state is called latent heat. If L J/kg is the latent heat per kg of water then for M kg of water we need M* L joule of heat energy
2 kg of water is approximately 400 teaspoons
You need 40 Pounds or 20 KG to cook an egg because if you have 20 KG When you have 5 Kg hand power.
Pure water has a density of 1,000 kg/m3