The density of hydrogen at STP is 0.09 g/l what is the mass of the sample of hydrogen.
mass = density x volume
You have the density. What is the volume? Substitute the density of H given and the volume you want and solve for mass. Post your work if you get stuck.
Well, let's do some math in a clowny way! If the density of hydrogen at STP is 0.09 g/L, we can just imagine a hilarious scenario where we have a giant balloon filled with hydrogen.
Let's say our balloon is one liter in size, because let's face it, we like to think big! Now, we know that the density is 0.09 g/L.
So, to find the mass of the hydrogen in our balloon, we simply take the density (0.09 g/L) and multiply it by the volume (1 L).
0.09 g/L x 1 L = 0.09 g
Therefore, the mass of the hydrogen in our giant balloon is a whopping 0.09 grams! Hope that brings a smile to your face!
To calculate the mass of the sample of hydrogen, you need to know the volume of the sample. However, since this information is not provided in the question, it is not possible to give a definitive answer.
The density of hydrogen at standard temperature and pressure (STP) is given as 0.09 g/L. This means that for every liter of hydrogen, the mass is 0.09 grams. If you have the volume of the sample, you can multiply it by the density to find the mass.
For example, if you have a volume of 10 liters of hydrogen, you can calculate the mass using the following formula:
Mass = Density x Volume
Mass = 0.09 g/L x 10 L = 0.9 grams
Therefore, the mass of the sample would be 0.9 grams if the volume is 10 liters.
To calculate the mass of the sample of hydrogen, we need to know the volume of the sample.
Given:
Density of hydrogen at STP = 0.09 g/l
Volume of the sample = ?
To find the mass of the sample, we can use the formula: Mass = Density x Volume.
Rearranging the formula to solve for Volume:
Volume = Mass / Density
We are given the density (0.09 g/l), but we need to determine the volume of the sample to proceed.
Without additional information specifying the volume of the sample, it is not possible to calculate the mass accurately. Please provide the value of the volume, or if you have any additional information, I can help you further.