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Depends on the age of the neutron star. As a neutron star no longer has any method to produce heat, it will slowly cool over time. A young neutron star will have a core temperature of about 106 kelvin.
As the temperature increases, the reaction time decreases.
It depends where you are. Most of the time, the increase in temperature will be negligible. However, if you are in a very humid place, heat rises so the temperature might increase slightly.
Yes, it is possible.
During the time of change of state,the heat or temperature is used to increase the potential energy and there by change of state.This time there will be no change in temperature.
To rapidly increase in temperature over a short period of time.
Depends on the age of the neutron star. As a neutron star no longer has any method to produce heat, it will slowly cool over time. A young neutron star will have a core temperature of about 106 kelvin.
The temperature in the core of a star depends, to a great extent, on:* The star's mass. The general tendency is that high-mass stars are hotter. * Where the star is in its life cycle. The star's core temperature will vary over time. On the other hand, the star's surface temperature also depends on its size. Thus, it is possible that PRECISELY because a star is hotter in the core, it gets bigger, and the surface temperature DECREASES (though its total energy output increases).
Increase of velocity over a period of time is called acceleration.
As the temperature increases, the reaction time decreases.
in a microwave, yes. in an oven no. and in the oven increase temperature but not time.
As temperature decreases, luminosity will also decrease As radius increases (and with it surface area, but radius is a much easier to work with if you're trying to compare stars so we usually say radius) luminosity will also increase. If both are happening at the same time, it is possible that the luminosity of the star will remain more or less constant. Often one change will dominate the other, such as when a star goes through the red giant phase when the increase in radius has a far greater effect than the drop in temperature, and the star becomes more luminous.
The temperature could increase as the reaction progressed. Higher temperatures would create a faster reaction.
It depends where you are. Most of the time, the increase in temperature will be negligible. However, if you are in a very humid place, heat rises so the temperature might increase slightly.
68 degrees
Yes, it is possible.
Increase