Answer and Explanation: Magma is hotter than lava, depending on how recently the lava reached the surface and if the magma and lava are from the same magma chamber below the volcano. The reason for limiting the answer in this way is because magma is not always at the same temperature.
Lava is the hottest natural thing on Earth. It comes from the Earth's mantle or crust. The layer closer to the surface is mostly liquid, spiking to an astounding 12,000 degrees and occasionally seeping out to create lava flows.
The temperature of magma is slightly hotter and ranges from 1300 to 2400 degrees Fahrenheit. The temperature of lava is slightly colder and ranges between 1300-2200 degrees Fahrenheit.
No. Lava, when being forced from the earth, is between 700 and 1200 Celsius or roughly 1300 to 2200 Fahrenheit. The hottest fire is from an Oxyacetylene torch, also called a cutting torch, that reaches roughly 3000 Celsius or about 5400 Fahrenheit.
Lightning is hot. Really hot. It can reach temperatures as high as 50,000 degrees Fahrenheit, five times hotter than the surface of the sun, and even hotter than lava here on Earth.
The hottest thing in the Universe (Supernova)
Supernovas are the hottest thing in the Universe as they reach a million degrees Celsius. These explosive events occur when a star between 8 and 40 times more massive than our Sun reaches the end of its stellar lifecycle and explodes when its core collapses. What is this?
By zapping a piece of aluminum with the world's most powerful x-ray laser, physicists have heated matter to 3.6 million degrees Fahrenheit (2 million degrees Celsius)—making it briefly the hottest thing on Earth. Only locations such as the heart of the sun or the center of a nuclear explosion are hotter.
Actual lava is red-orange in color, given its temperature. Truly-blue lava would require temperatures of at least 6,000 °C (10,830 °F), which is much higher than any lava can naturally achieve on the surface of the Earth.
We conclude that the optimal heat generated by lava at 2,190°F cannot melt the tungsten because of its high melting point. Other examples of metals and ceramics that can withstand lava's temperature include; titanium, iridium, iron alloys, osmium, nickel alloys, aluminum oxide, mullite, and silicon nitride.
In Ethiopia's Danakil Depression, the sulfur dust in the soil of a hydrothermal vent ignites to form blue flames. Grunewald has also documented the blue glow on the Dallol volcano in the Danakil Depression, in the Afar region of Ethiopia near the borders of Eritrea and Djibouti.
Blue flames usually appear at a temperature between 2,600º F and 3,000º F. Blue flames have more oxygen and get hotter because gases burn hotter than organic materials, such as wood. When natural gas is ignited in a stove burner, the gases quickly burn at a very high temperature, yielding mainly blue flames.
Ultramafic lava
Ultramafic lavas, such as komatiite and highly magnesian magmas that form boninite, take the composition and temperatures of eruptions to the extreme. All have a silica content under 45%. Komatiites contain over 18% magnesium oxide and are thought to have erupted at temperatures of 1,600 °C (2,910 °F).
In the core, the process of nuclear fusion creates temperatures of approximately 27,000,000° F. A temperature of 27 million degrees Fahrenheit is more than 12,000 times hotter than the hottest lava on Earth! If the core is the hottest part of the sun, what's the coolest part?
Now, falling into lava is another story. The extreme heat would probably burn your lungs and cause your organs to fail. “The water in the body would probably boil to steam, all while the lava is melting the body from the outside in,” Damby says.
The basaltic lava shooting out of the Cumbre Vieja volcano on the Atlantic island of La Palma, for example, is around 1000°C. But black lava, fresh out of the pit, erupts at 500°C, only 400 degrees hotter than the water boiling in your kettle.
As the lava cools, thick black layer forms which traps the heat, and is similar to glass blowing. The lava doesn't melt through ice because the steam ice sits on top of a blanket of steam rather than on top of the ice itself.
Lava won't kill you if it briefly touches you. You would get a nasty burn, but unless you fell in and couldn't get out, you wouldn't die. With prolonged contact, the amount of lava "coverage" and the length of time it was in contact with your skin would be important factors in how severe your injuries would be!
We conclude that the optimal heat generated by lava at 2,190°F cannot melt the tungsten because of its high melting point. Other examples of metals and ceramics that can withstand lava's temperature include; titanium, iridium, iron alloys, osmium, nickel alloys, aluminum oxide, mullite, and silicon nitride.
CARBONATITES. Carbonatites are perhaps the most unusual of all lavas. They are defined, when crystalline, by having more than 50% carbonate (CO3-bearing) minerals, and typically they are composed of less than 10% SiO2.
Freshly cooled flows in the crater of Ol Doinyo Lengai are black but soon turn white because of chemical reactions that occur as the lava absorbs water. In rainy weather, this color change can occur before the flows are cold. Within a few months of erupting, lava flows turn into a brown powder due to water absorption.
Volcanic rocks are among the most common rock types on Earth's surface, particularly in the oceans. On land, they are very common at plate boundaries and in flood basalt provinces. It has been estimated that volcanic rocks cover about 8% of the Earth's current land surface.
In fact, lightning can heat the air it passes through to 50,000 degrees Fahrenheit (5 times hotter than the surface of the sun).
Physicists at the Brookhaven National Laboratory have smashed gold ions together to produce a quark-gluon plasma like that which existed in the first instant after the Big Bang that created the universe, and in doing so have produced what Guinness World Records says is the highest man-made temperature ever, 7.2 ...
The Coldest Place on Earth
Researchers studying subatomic particles created a device — called a cryostat — that can create really cold temperatures: An 880-pound (400-kilogram) copper cube reached 6 millikelvins, just six-thousandths of a degree above absolute zero (0 degrees Kelvin) back in 2014.