Q: What objects warmer than 0 kelvin must be?

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Kelvin and Fahrenheit are both temperature scales that describe a wide range of temperatures, both hot and cold. Since kelvin places zero at a much lower temperature than Fahrenheit does, any number in Fahrenheit will be warmer than the same number in kelvin.

The air must be warmer than what it is touching and there must be moisture in the air.

warmer molecules are more excited and therefore move faster than colder molecules

Absorption of heat. Black objects having higher power of heat absorption than any other objects. So you will always be warmer in a black car (or a black shirt).

True , because the warmer objects give off more infrared radiation than cooler objects ..

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Yes, Celsius is converted to Kelvin by adding 273 to your given Celsius temp. Therefore, 270 Celsius is equal to 270+273=543 Kelvin. 543>270 So 270 celsius is warmer than 270 Kelvin

Because it can never be physically achieved, so there's nothing to observe. Even intergalactic space is warmer than zero Kelvin ... (as if you could fly a thermometer out there to observe it).

Because it can never be physically achieved, so there's nothing to observe. Even intergalactic space is warmer than zero Kelvin ... (as if you could fly a thermometer out there to observe it).

Yes, 303 Kelvin is equal to a temperature of 85.73 degrees Fahrenheit.

Answer: -23 ºC = 250 K, so -23 C is warmer than 176 K

Kelvin and Fahrenheit are both temperature scales that describe a wide range of temperatures, both hot and cold. Since kelvin places zero at a much lower temperature than Fahrenheit does, any number in Fahrenheit will be warmer than the same number in kelvin.

A Celsius degree is the same size as a Kelvin degree. The temperature, 1°C, is around 273 degrees warmer than 1K.

why must refrigerant in the suction line be slightly warmer than the saturation temperture

The air must be warmer than what it is touching and there must be moisture in the air.

The rate at which they conduct heat away from your finger tips.

warmer molecules are more excited and therefore move faster than colder molecules