No. The Wikipedia lists units of J/(g x K) for some materials. Of course, to consistently use SI units, kilograms should be used instead of grams.
The correct capatilization for it is Eighty-Second Street
Yes, that is correct.
The correct answer is 1.36
There are two reasons for this. The first is that a Fahrenheit degree is smaller than a Celsius degree. Four Celsius degrees is the same size as nine Fahrenheit degrees. The second reason is that 32 degrees Fahrenheit is zero degrees Celsius. If you put those two ideas together you figure out that -40°F = -40°C.
The speed of air at 20 degrees Celsius is 343 meters per second. The speed of light is 299 792 458 meters per second.
63.9 ml per joules a second. In the arctic sea only.
The second is correct. The second is correct. The second is correct. The second is correct.
Giants stadium has the second most seating capacity
Both are correct depending upon the interpretation. If you are referring to the collective years, than the first example is correct. If you are referring to a specific year, then the second, possessive example, is correct.
It is grammatically correct to spell out the word for numbers of ten and less, hence, "second century B.C." is correct. Also, Second Century BCE is correct.
8
at 0 degrees Celsius sound travells 330 metres per second at 20 degrees Celsius sound travells 340 metres per second at 30 degrees Celsius sound travells 350 metres per second in water sound travells 1400 meters per second through wood sound travells 4500 metres per second through steel sound travells 5000 metres per second
Correct, the word you denotes the second person.
There are three things which determine the amount of heat in something. First, there is the mass (weight) of the something. The amount of heat will be linearly proportional to mass. Thus, twice as much mass means twice as much heat. Second, there is the specific heat of the something. The specific heat is the amount of heat required to raise one unit of mass by one degree Celsius. It differs for each material. In kilo Joules per kilogram for each degree Celsius or Kelvin, metals range from about 0.1 to about 1.9 and water is about 4.2. Thus water has a very high heat capacity. Energy involved in phase change, such as water to steam, or iron to molten iron, is not included here. Third is the temperature change. Raising a kilogram of water from 20 degrees Celsius to 50 degrees Celsius would store about 4.2 x 30 = 126 kilo Joules.
The sea level has nothing to do with the speed of sound. It's the temperature that matters. At 20° Celsius the speed of sound c = 343 m/s. At 20° Celsius the speed of sound is c = 13 503.937 inches/second.
Calgary Alberta Canada @ -31 Celsius
The second one is more correct.