Yes and sometimes the two solutions are equal
It will then have two equal real solutions
It has two equal solutions of 2
Two equal roots
An isosceles triangle is a triangle with two equal sides and two equal angles. The two equal sides are called the legs, and the angle between them is called the vertex angle. The two other angles in an isosceles triangle are equal and are called the base angles.
the one with higher quantity is called solvent the lower one im not sure about ill look it up on google :) :) :) :) :)
Yes and sometimes the two solutions are equal
In a dynamic equilibrium, the rate of the forward reaction is equal to the rate of the reverse reaction, causing no overall change in the concentrations of the reactants and products. This results in a stable state where both solutions coexist without any noticeable changes over time.
If the discriminant of the quadratic equation is greater than zero then it will have two different solutions. If the discriminant is equal to zero then it will have two equal solutions. If the discriminant is less than zero then it will have no real solutions.
Quadratic curves only have two solutions when the discrimant is greater than or equal to zero.
It will then have two equal real solutions
The more concentrated solution is hypertonic and osmotic pressure (a hydrostatic force whose sole purpose in life is to make concentrations equal) tends to move solvent into the more concentrated solution. It will stop rising when either a) the solution concentrations are the same on both sides of the membrane, or b) when the osmotic pressure becomes equal to the ambient air pressure.
It has two equal solutions of 2
When two solutions are isotonic it means that they have an equal amount of solute concentration. This state is referred to as dynamic equilibrium.
Yes. The volume you have of a particular solution does not have anything to do with the concentration of that solution.
Two equal roots
This is called a concentration gradient. It represents the difference in the concentrations of a substance between two regions, with molecules naturally moving from high to low concentration areas to reach equilibrium.