pH 2 -> pH 1
pH 2 -> pH 1
Changing the H+ ion concentration from 1 x 10^-7 to 1 x 10^-6 would represent a tenfold increase in H+ ion concentration (from acidic to less acidic).
A change in pH of 1 unit is equivalent to a 10 fold change in the concentration of H+ ions. So, a 10 fold increase in H+ ions will lower the pH by 1 pH unit.
A change in the intensity of an acid or base. If it go less from say 6, then it will become more acidic. If it goes up 1 from 6, it will become more basic and also neutral.
As you move left to right on the periodic table, the elements generally have increasing atomic number, increasing atomic mass, and a gradual change in chemical properties. The trend shows a transition from metals to nonmetals with a shift in electronegativity and atomic size.
pH 2 -> pH 1
Changing the H+ ion concentration from 1 x 10^-7 to 1 x 10^-6 would represent a tenfold increase in H+ ion concentration (from acidic to less acidic).
10
A change in pH of 1 unit is equivalent to a 10 fold change in the concentration of H+ ions. So, a 10 fold increase in H+ ions will lower the pH by 1 pH unit.
When pH value is decreased 1.0 unit, the H+ concentration is tenfolded, because -log(10.[H+]) = pH + 1.0
A change in the intensity of an acid or base. If it go less from say 6, then it will become more acidic. If it goes up 1 from 6, it will become more basic and also neutral.
its pH 2 ---> pH 1
From 2 pH to 1 pH would show that ten fold increase in concentration of H +.
The enzyme activity curve shows that as enzyme concentration increases, the reaction rate also increases. However, there is a point where adding more enzyme does not further increase the reaction rate, indicating that there is a limit to the effect of enzyme concentration on reaction rate.
A line graph would be ideal for depicting the change in concentration of carbon dioxide over time. This type of graph effectively shows trends and fluctuations in concentration levels as they occur, allowing for easy visualization of increases or decreases over the specified time period. By plotting time on the x-axis and carbon dioxide concentration on the y-axis, you can clearly illustrate the relationship between these two variables.
The price of houses increases, and the supply increases
As light intensity increases, the rate of photosynthesis will increase as long as other factors are in adequate supply. As the rate increases, eventually another factor will come into short supply. The graph below shows the effect of low carbon dioxide concentration.