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No. The sun's core has a temperature of tens of millions of degrees, far hotter than any liquid. Instead it is made of highly compressed plasma.
Mercury. Its close orbit to the Sun causes extreme temperature variances and prevents it from maintaining any substantial gaseous atmosphere.
Mars is, on the whole, far colder than the Earth, for a couple of reasons. First off, it's farther from the Sun. Secondly, and probably most importantly, Mars has no atmosphere to speak of. The lack of an atmospheric "blanket" means that Mars is unable to retain any heat energy that does get to it from the Sun.
Not nuclear, it takes an extremely hight temperature for Fusion to occur with in the sun or any other star. ADDED: Yes "nuclear". Fusion is one of the two type of nuclear reaction, the other being Fission.
The highest temperature in the Sun is 27,000,000° F, which is in the Sun's core.
The only thing that would not be instantly vaporized is the basic stuff of matter, protons, electrons, neutrons, elements etc.
Any material will emit blackbody radiation at any temperature. Lithium 6 will never emit ionizing radiation.
up close no but far away they can like that penny in your pocket.
yes there is you can where medal on the sun
Vibration
Generally speaking, any ferro-, ferri-, or para- magnetic material. (Where the curie temperature is above the material temperature.
The sun heats up water at the same rate as any other water. I suppose there would be variations in heat temperature based on the material in the water, such as salt and dirt.
there is no material can land on sun is everything will going to melt even if how much strong it is..
Generally speaking, any ferro-, ferri-, or para- magnetic material. (Where the curie temperature is above the material temperature.
No. First of ally, the sun is a ball of gas, so there is no surface to land on. Second, the sun is extremely hot. Even the coolest parts of the sun are far hotter than any substance can withstand.
Water can be evaporated at any temperature.
Toughness is the ability of steel to absorb energy. Hardness is the ability of steels to withstand wear. Hardness is the ability of material to withstand the indent and is measured in rockwel or vickers. also it is a measure of stiffness of material. but hardenability is ability of material to become hardened by various methods of hardening such as carburising or quenching. it is firmly dependent on quantity of carbon in that material. and actually it doesn't have any measuring unit !