Answer:
A: Volume and Amount of Gas
B: 3
C: 4
D: 4
E: 3
F: Gay-Lussac's Law
G: Directly Proportional Relationship
Explanation:
A: When looking at the information given, each container contains the same amount of particles and the size of the container is stated to be the same. Therefore, these two variables remain constant.
B: KE is determined by the temperature, which means the container with particles at the highest temperature has the highest amount of KE. This would be container 3.
C: The container with the lowest temperature is 4.
D: The container with the lowest pressure is 4 because a lower temperature means lower pressure.
E: The container with the highest temperature has the highest pressure because the particles are moving faster, meaning more pressure exerted against the container.
F: Gay Lussac's Law because this law shows the relationship between pressure and temperature.
G: This is a directly proportional relationship because as temperature increases, pressure increases. As temperature decreases, pressure decreases.
calcium chloride and sulfur are the only two i know.
It's 1s2 2s2 2p6 3s2 3p3.
Gibbs free energy of a reaction (
Δ
G ) is the change in free energy of a system that undergoes the chemical reaction. It is the energy associated with the reaction, which is available to do some useful work. If ΔG<0
, then the reaction can be utilized to do some useful work. If
ΔG>0
, then work has to be done on the system or external energy is required to make the reaction happen. ΔG=0 when the reaction is at equilibrium and there is no net change taking place in the system.
Answer:
As you used two diferent instruments, one is more sensitive than the other.
Explanation:
The sensitivity of an instrument is the minimum amount of magnitude that can be differentiate a measurement system.
In method A, you got 27 cm, so if in method B, you got 27.00, method B is more sensitive. It's like saying that one system measures more than the other