6.335 liters.
SATP- Standard Ambient Temperature and Pressure Temperature: 25 degrees celsius Pressure: 101.32 kPa
N2+ and N2- I just did it on mastering chem and it worked I'm pretty sure its because when you count the valence electrons in N2+ and N2- you get 9 and 11 respectively because these are odd there has to be an unpaired electron in each
The number of moles is 0,03.
0 in N2
0 in N2
SATP- Standard Ambient Temperature and Pressure Temperature: 25 degrees celsius Pressure: 101.32 kPa
Bromine
NitrogenOxygenFlourineHeliumNeonArgonKryptonXenonRadonChlorineHydrogen
The volume of 5.0 moles of 02 at STP is 100 litres.
Bromine
1
By using the formula V1 x N1 = V2 x N2 Taking V1= 250 ml; N1= 0.35M; N2= 5.7M. V2 = volume of 5.7M needed to dilute V2 = V1 x N1 N2 = 250 x 0.35 = 15.35ml 5.7
In vanderwaal's Equation 'a' measures the intermolecular force of attraction and 'b' measures the volume of the molecule. N2 has greater volume (due to it's larger size) and hence 'b' is greater for N2. NH3 has greater dipole moment and hence 'a' is greater for NH3.
Air is about 79% (volume) Nitrogen (N2). It is a gas at atmospheric conditions.
It stands for Standard Ambient Tempurature and Pressure.
At SATP, bismuth is a solid
The volume is 4908 L at oC.