Without an equality sign the given expression is not an equation and so therefore a solution is not possible.
72
z=.3
To solve for x when z equals y divided by x, you can rearrange the equation to isolate x. Start by multiplying both sides by x to get xz = y. Then, divide both sides by z to solve for x, giving you x = y/z. This is the solution for x when z equals y divided by x.
The expression has no solution but it can be simplified to: z+6
The chromatic polynomial for the Petersen (not Peterson) graph ispi(z) = (z - 2)* (z - 1)*z*(z^7 - 12*z^6 + 67*z^5 - 230*z^4 + 529*z^3 - 814*z^2 + 775*z - 352).
It is the same as: 11z = 132 Divide both sides by 11: z = 12
To solve the equation (3z - 39 = 0), first, isolate the term with (z) by adding 39 to both sides, resulting in (3z = 39). Then, divide both sides by 3 to solve for (z), giving (z = 13). Thus, the solution is (z = 13).
-12
6+z = 3 z = 3-6 z = -3
72
To find the value of z that makes the equation true, we need to solve for z in the equation 5z + 3 = 23. First, subtract 3 from both sides to isolate the term with z: 5z = 20. Then, divide both sides by 5 to solve for z: z = 4. Therefore, the value of z that makes the equation true is z = 4.
To solve the equation (10z = 100), divide both sides by 10. This simplifies to (z = 10). Therefore, the value of (z) is 10.
In simple cases such as these, you can solve inequalities just like an equation. In this case, you add 3 to both sides.
z=.3
To solve the equation ( z - 8 = -3 ), you need to isolate ( z ) by adding 8 to both sides. This gives you ( z = -3 + 8 ), which simplifies to ( z = 5 ). Therefore, the solution to the equation is ( z = 5 ).
divide each side by 12; Z=9
To solve for x when z equals y divided by x, you can rearrange the equation to isolate x. Start by multiplying both sides by x to get xz = y. Then, divide both sides by z to solve for x, giving you x = y/z. This is the solution for x when z equals y divided by x.