The water cycle is partially dependant on evaporation, not the boiling point. Water evaporates into the atmosphere at temperatures much lower than its boiling point. Higher temperatures cause the water molecules to break free of the water's surface easier, but so do decreases in atmospheric pressure and humidity.
The alkaline earth metal with a boiling point over 2000 degrees Celsius is beryllium. Beryllium has a boiling point of approximately 2470 degrees Celsius (4480 degrees Fahrenheit). It is known for its high melting point, strength, and lightweight properties, making it useful in various high-temperature applications.
For all of Earth's water to evaporate and remain as vapor, temperatures would need to exceed 100 degrees Celsius (212 degrees Fahrenheit) to reach the boiling point of water. Once water evaporates into vapor, it would continue to expand and dissipate into the atmosphere.
Yes, the Earth's mantle is significantly hotter than boiling water. While boiling water reaches a temperature of 100 degrees Celsius (212 degrees Fahrenheit), the mantle's temperature ranges from about 500 to 4,000 degrees Celsius (932 to 7,232 degrees Fahrenheit). This means the mantle can be over 40 times hotter than boiling water, depending on the specific depth and location within the mantle.
The Earth rotates through 360 degrees longitude every 24 hours.
That depends on what you're relating the spin to. If the Earth did not spin relative to space itself, there would be a diurnal cycle. However, each 'day' would last half a year, with the other half occupied by one night. If the Earth did rotate, but did not rotate relative to the Sun, we would be in much the same situation the Moon is in with us - one face always showing to the Sun, the other always hidden. In this scenario, we would have no diurnal cycle.
---- ---- No because the sun would just evaporate the water in all the oceans, lakes, ponds, rivers, seas, and streams. After that, it would never snow or rain. The Earth would be a very dry place. So, in the end, the Water cycle would NOT exist on Earth if the boiling temperature was 200 degrees celsius. ---- ----
i don't know but could it be lava? I'm only in year nine so I'm practically guessing and the only hot thing i could now over is lava... ^^ lava is not an element, but my best guess would be Beryllium as it has a boiling point of 2,970 degrees celcius and it is an alkaline earth metal.
I am Berylium, Be, Atomic number 4 and I have a boiling point of 2970 degrees celsius.
The alkaline earth element with a boiling point over 2000 degrees Celsius on the periodic table is Beryllium.
Beryllium (Be)
No, because then process of evaporation would not take place. Thus, halting the rest of the process.
In a liquid, as at sea level water's boiling point is 100 degrees and it's freezing point is 0.
Cerium's boiling point is 6,229 degrees Fahrenheit. Cerium is classified as a rare earth element, and its atomic number is 58. Its melting point is 1,463 degrees Fahrenheit.
For all of Earth's water to evaporate and remain as vapor, temperatures would need to exceed 100 degrees Celsius (212 degrees Fahrenheit) to reach the boiling point of water. Once water evaporates into vapor, it would continue to expand and dissipate into the atmosphere.
evaporation is a fundemental part of the water cycle. without sunshine it is unlikely to occur but, as the boiling point of water is 100 degrees C, in a climate with a temperature equal to or above that, it can occur. however a climate with such temperatures cannot be naturally found on earth.
One complete cycle of any repeating motion is defined as 360 degrees.
Yes, the Earth's mantle can reach temperatures of up to 1300-3300 degrees Fahrenheit, which is significantly hotter than boiling water at 212 degrees Fahrenheit.