By amount I assume you mean moles.
The amount of moles per liter and the amount of moles are the same if you calculate from 1 L (which is what you do when you have, for example, 0,30 M)
0,30 M = 0,30 mol/liter, if you have 1 liter that means you have 0,30 moles.
So you can use either moles or mol/liter.
Yes, it is possible.
pressure did not remain constant or if the amount of gas did not remain constant.
Are constant
For solutions of ionic compounds in water, the formation of a precipitate can be predicted by noting the concentrations of each kind of ions present in the solution after it is prepared. If the solubility product constant of any possible ionic compound-forming combination of these ions is exceeded, a precipitate will eventually form. If not, no precipitate will form.
Homeostasis is the process by which the body maintains internal stability, such as regulating temperature or pH levels, despite external changes. Steady state refers to a situation where a system's variables are constant over time, even though there may be input and output fluctuations. For example, in homeostasis, the body maintains a constant temperature of around 37°C regardless of external temperatures, while a steady state can be seen in a chemical reaction where the concentrations of reactants and products remain constant over time despite continuous reactions occurring.
To calculate the initial rate, you need to know the rate law for the reaction. From there, you can plug in the initial concentrations of A and B to determine the rate constant. Without the rate law, it's not possible to calculate the initial rate.
No, not at all possible. But constant speed with changing velocity is possible.
In the Nernst Distribution Law, temperature is assumed to be constant because the equilibrium constant is temperature-dependent. By keeping the temperature constant, the ratio of concentrations of products to reactants, as calculated by the Nernst Equation, remains valid under the assumption of equilibrium. Any changes in temperature can affect the equilibrium constant and therefore disrupt the accuracy of the Nernst Distribution Law.
Possible, but unlikely.
In an isothermal expansion process, it is possible for entropy to stay constant.
its not, if ur accelerating ur not staying at a constant speed.
Yes, it is possible.
yes
Yes - for a while. Or indefinitely, if you will accept zero acceleration as "constant acceleration".
Since acceleration involves a change in velocity, and object might be accelerating even though its speed is constant.
Not possible, acceleration dV/dt =0.
pressure did not remain constant or if the amount of gas did not remain constant.