The pace of cooling is also affected by the mass (volume) of the water, the mass of the pot, the thermal transfer capacity of the pot and whatever it comes into touch with, ambient temperature, air pressure, humidity, water purity, and so on. "Close enough" is the answer to your query. I'd hold off for approximately 30 seconds, and when 2 cups of water double the time of a single cup equals 1 minute.
Boiling 1 cup of water or 2 cups of water takes longer.
In a 1 kWh (kilowatt-hour) efficient water heater, 1 cup (250ml) of 59°F (15°C) water takes 90 seconds to boil. Boiling 2 cups of water takes 2.5 minutes, while boiling 4 cups of water takes 5 minutes. However, because we don't frequently utilize high-efficiency water heaters, it usually takes a little longer in practice.
temperature, freezing point of water, boiling point of water, difference between freezing point and boiling point. brainly.ph/question/6537816
Answers & Comments
COOLING DOWN PROCESS (MELTING AND FREEZING POINT)
Answer:
1 cup of water - Approximately 30 seconds
2 cups of water - Approximately a minute
Explanation:
The pace of cooling is also affected by the mass (volume) of the water, the mass of the pot, the thermal transfer capacity of the pot and whatever it comes into touch with, ambient temperature, air pressure, humidity, water purity, and so on. "Close enough" is the answer to your query. I'd hold off for approximately 30 seconds, and when 2 cups of water double the time of a single cup equals 1 minute.
Boiling 1 cup of water or 2 cups of water takes longer.
In a 1 kWh (kilowatt-hour) efficient water heater, 1 cup (250ml) of 59°F (15°C) water takes 90 seconds to boil. Boiling 2 cups of water takes 2.5 minutes, while boiling 4 cups of water takes 5 minutes. However, because we don't frequently utilize high-efficiency water heaters, it usually takes a little longer in practice.
temperature, freezing point of water, boiling point of water, difference between freezing point and boiling point. brainly.ph/question/6537816
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