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Sound travels faster in a medium at a higher temperature. Therefore, sound will travel faster at 88 degrees Celsius compared to 58 degrees Celsius.
Sound travels faster in air at 20 degrees Celsius compared to 0 degrees Celsius. This is because the speed of sound increases with temperature, as the molecules move quicker and can transmit sound waves more efficiently.
As mercury is heated from 45 degrees Celsius to 365 degrees Celsius, its particles will gain energy and move faster. This increased thermal energy causes the particles to vibrate more quickly and spread out, leading to an expansion in volume. At the higher temperature, the motion of mercury particles will be more rapid and chaotic compared to when it was at 45 degrees Celsius.
As water at 4 degrees Celsius is heated slightly, it will start to expand and the temperature will increase. This is because water is at its maximum density at 4 degrees Celsius, and heating it will cause the molecules to move faster and spread out, leading to a volume increase and a temperature rise.
it is 15 times faster in iron (5,120 miles a second) than in air at 20 degrees celsius
Sound travels faster in a medium at a higher temperature. Therefore, sound will travel faster at 88 degrees Celsius compared to 58 degrees Celsius.
58 degrees because it is closer to 69 degrees.
Sound travels faster in air at 20 degrees Celsius compared to 0 degrees Celsius. This is because the speed of sound increases with temperature, as the molecules move quicker and can transmit sound waves more efficiently.
neither, the water is not frozen at either temp
Water evaporates faster at 100 degrees Celsius compared to 200 degrees Celsius because at 100 degrees Celsius, water reaches its boiling point and undergoes a phase change from liquid to gas. At 200 degrees Celsius, water is already in the vapor state, so there is no further evaporation taking place.
Cookies will bake faster at 150 degrees Celsius compared to 50 degrees Celsius. The higher temperature allows for faster heat transfer to the cookies, resulting in quicker baking. However, it is important to monitor the cookies closely at the higher temperature to prevent burning.
no it kills them. germinate at 25 degrees Celsius
Depends on what they are traveling through- the denser the substance, the faster sound moves. It travels faster through water than through air. In air, the greater the air pressure, the faster it moves (denser air). The lower the temperature, faster the speed (cold air is dense). At sea level, 20 degrees Celsius, sound travels through air at 1126.547 ft/second- or about 768.095 mph
Depends on what they are traveling through- the denser the substance, the faster sound moves. It travels faster through water than through air. In air, the greater the air pressure, the faster it moves (denser air). The lower the temperature, faster the speed (cold air is dense). At sea level, 20 degrees Celsius, sound travels through air at 1126.547 ft/second- or about 768.095 mph
Serratia colonies grown at 37 degrees Celsius showed faster growth and larger colony size compared to those grown at 25 degrees Celsius. The color of the colonies may also differ, with colonies grown at 37 degrees Celsius often appearing darker or more pigmented.
Yes, a puddle would likely freeze at -5 degrees Celsius because water freezes at or below 0 degrees Celsius. The lower the temperature, the faster the puddle will freeze.
As mercury is heated from 45 degrees Celsius to 365 degrees Celsius, its particles will gain energy and move faster. This increased thermal energy causes the particles to vibrate more quickly and spread out, leading to an expansion in volume. At the higher temperature, the motion of mercury particles will be more rapid and chaotic compared to when it was at 45 degrees Celsius.