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How much energy (in joules) is released when 0.06 kilograms of mercury is condensed to a liquid at the same temperature?
The heat of vaporization for mercury is about 59.11 kJ/kg. To convert this to joules/kg, multiply by 1000 to get 59,110 J/kg. Therefore, for 0.06 kg of mercury, the energy released when condensed to a liquid at the same temperature would be 0.06 kg * 59,110 J/kg = 3,546.6 Joules.
How much energy in joules is released when 0.06 kilograms of mercury is condensed to a liquid at the same temperature?
The heat of vaporization of mercury is 59.11 kJ/kg. To convert this to joules, we multiply by 1000, which gives us 59,110 J/kg. Therefore, the energy released when 0.06 kg of mercury is condensed to a liquid at the same temperature would be 0.06 kg * 59,110 J/kg = 3,546.6 J.
How many mL in 1 KG of liquid silicone?
Liquid silicone has a density of about 0.965 g/mL. Therefore, 1 kg of liquid silicone would be approximately 1036 mL.
What is the density of a blue liquid that has a volume of 144land a mass of 129.6kg?
The density of the blue liquid is 0.9 kg/L. This is calculated by dividing the mass (129.6 kg) by the volume (144 L).
How much is 2.5 kg at 6.40 per kg?
how much is 2.5 kg of bacon at $6.40 per kilogram
How much heat is required to convert 1 kg of ice to liquid?
lf = 3.35 x 105 J kg-1 This much amount of heat required to convert 1 kg of ice to liquid Mani.Ra
How much heat is absorbed for 1 kg of liquid gets vapourised into boiling point?
The amount of heat absorbed by 1 kg of liquid to vaporize it depends on what that liquid is, (water?), and what the temperature of the liquid is at the start of the process. Obviously, it will take more heat to vaporize 1 kg of liquid that is at 0º than it will to vaporize 1 kg of liquid that is at, say, 30º.
How much energy (in joules) is released when 0.06 kilograms of mercury is condensed to a liquid at the same temperature?
The heat of vaporization for mercury is about 59.11 kJ/kg. To convert this to joules/kg, multiply by 1000 to get 59,110 J/kg. Therefore, for 0.06 kg of mercury, the energy released when condensed to a liquid at the same temperature would be 0.06 kg * 59,110 J/kg = 3,546.6 Joules.
How much does a gallon of acetyl chloride liquid form weigh?
The mass is 4,178 kg (for the US gallon).
What is conversion factor from kg of liquid nitrogen to kg of gaseous nitrogen?
Liquid nitrogen has a density of approximately 809 kg/m³ at its boiling point. When it vaporizes into gaseous nitrogen, it expands by a factor of around 696, resulting in approximately 809 kg of liquid nitrogen yielding 561 kg of gaseous nitrogen.
How much energy in joules is released when 0.06 kilograms of mercury is condensed to a liquid at the same temperature?
The heat of vaporization of mercury is 59.11 kJ/kg. To convert this to joules, we multiply by 1000, which gives us 59,110 J/kg. Therefore, the energy released when 0.06 kg of mercury is condensed to a liquid at the same temperature would be 0.06 kg * 59,110 J/kg = 3,546.6 J.
How many mL in 1 KG of liquid silicone?
Liquid silicone has a density of about 0.965 g/mL. Therefore, 1 kg of liquid silicone would be approximately 1036 mL.
How many teaspoon in a liquid kg?
200
Why water is not measured in kg?
because water is a liquid.
What is liquid density?
Density is the ratio of an object's mass divided by its volume. The standard international unit to measure density is kilograms per cubic meter (kg/m3). Whether it is a liquid or solid or gas makes no difference.
What is the density of a blue liquid that has a volume of 144land a mass of 129.6kg?
The density of the blue liquid is 0.9 kg/L. This is calculated by dividing the mass (129.6 kg) by the volume (144 L).
How much energy is required to vaporize 2 kg if aluminum?
To calculate the energy required to vaporize 2 kg of aluminum, we use the heat of vaporization of aluminum, which is approximately 10,900 J/kg. Therefore, the energy required is 2 kg × 10,900 J/kg = 21,800 J, or 21.8 kJ. This is the amount of energy needed to convert 2 kg of aluminum from a liquid to a vapor at its boiling point.
