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There are no candidates below, so none of them. There are an infinite number of solutions to the equation, and from here, we can't see which ones are on your list of choices.
If that's 8x = 120, x = 15
I gotchu homie: It's The equation has x = 4 and x = -4 as its only solutions.
It means to round the number to the nearest four decimal places (0.0000) for example the number 12.3476589 would be 12.3477 . The four decimal places are the amount of numbers after the decimal dot. For the fourth number after the decimal point, if the number after it is 5 or higher, than you round up to the next decimal number. If it is below five, you leave it as it is. If the fourth number is nine and the next one is eight for example, you also rise the third number as well as the fourth.
This is not a solution because of the following procedure shown below: y+1.1=4y-21.2 22.3=3y y=7.4333 Therefore, y=7.1 is not a solution for this equation.
0.0498Use your calculator to evaluate e-2. Round your answer to four decimal places and enter it below.0.1353Use your calculator to evaluatee-1. Round your answer to four decimal places and enter it below0.3679
1/8
y=3x
What is the molarity of an HCl solution if 43.6 mL of a 0.125 M KOH solution are needed to titrate a 25.0 mL sample of the acid according to the equation below?
There are no candidates below, so none of them. There are an infinite number of solutions to the equation, and from here, we can't see which ones are on your list of choices.
Since the highest power of 'x' in the equation is '1', there's one solution.
Titration equation can be solved by following the steps below: 1. write a well balanced equation. 2. Calculate number of moles of standard solution that is in the solution. 3. User molar relationship to convert moles of standard solution to that of unknown solution. 4. Find the number of moles of unknown solution.
If: 4x = x+15 Then: x = 5
If that's 8x = 120, x = 15
Titration equation can be solved by following the steps below: 1. write a well balanced equation. 2. Calculate number of moles of standard solution that is in the solution. 3. User molar relationship to convert moles of standard solution to that of unknown solution. 4. Find the number of moles of unknown solution.
If you have a quadratic equation and there is no x to put into the equation to get zero. The graph is like a U that is above the x axis or a cap that is below the x axis.
0.3679