get a life u nerd
The freezing point of bromine is -7.2 degrees Celsius.
100.7°F = 38.2°C: (100.7°F - 32) multiplied by 5/9 = 38.2°C
Cesium and Gallium both have melting points around 29 degrees C, so if you lived somewhere with fairly hot summers, these two elements would exist as solid in winter and liquid in summer. Of the non-metals Bromine melts at around -7 degrees C, so if you lived somewhere extremely cold it might be solid in winter and liquid in summer.
Beryllium is solid at room temperature. Beryllium is a light Metal of high thermal conductivity. Its melting point is relatively high (1278 +/- 5 0 C) and boiling temperature 2970 0 C
There are 7 electrons in the outer "ring" of bromine.
probably a gas, the melting point for bromine is -7 degrees celsius
The freezing point of bromine is -7.2 degrees Celsius.
The freezing point of bromine is -7 degrees Celsius.
Start by taking the number in Celsius and multiply it by 9. Then divide that number by 5, and then add 32. This is how you convert Celsius to Fahrenheit or use the equation F = (9/5)C + 32In this case, the answer is about 19.4 degrees Fahrenheit.
18 degrees Celsius minus 25 degrees Celsius equals -7 degrees Celsius.
7 degrees Celsius is warmer than 3.5. The higher the number in degrees, the warmer it is!
The temperature drop from 3 degrees Celsius to -7 degrees Celsius is 10 degrees.
-17 degrees Celsius. By subtracting 10 from -7, you get -17.
7 degrees Celsius = 44.6 degrees Fahrenheit.
23 degrees Celsius warmer than -7 degrees Celsius is 16 degrees Celsius. (-7 + 23 = 16)
7 degrees Celsius is the same as 44.6 degrees Fahrenheit.
To find a temperature that is 10 degrees lower than 7 degrees Celsius, you simply subtract 10 from 7. This calculation results in -3 degrees Celsius. Therefore, the temperature that is 10 degrees lower than 7 degrees Celsius is -3 degrees Celsius.