P=b+2s
Solve for s
P=b+2s
P - b = 2s
(P - b)/2 = s
Well, if we're solving for s, we have to get s by itself on one side of the equation. Let's go step by step:
P = b + 2s
First, let's get rid of b by subtracting it from both sides:
P - b = b + 2s - b
This simplifies to:
P - b = 2s
Now, we can divide both sides by 2 to solve for s:
(P - b) / 2 = (2s) / 2
Which gives us:
s = (P - b) / 2
So there you have it! The solution for s is (P - b) divided by 2. Now go out there and solve some more equations, you math whiz!
To solve for s, we need to isolate the variable s on one side of the equation. Given the equation P = b + 2s, we will start by subtracting b from both sides:
P - b = b + 2s - b
Simplifying:
P - b = 2s
Next, we divide both sides by 2 to solve for s:
(P - b) / 2 = 2s / 2
Simplifying further:
(P - b) / 2 = s
Thus, the solution for s is (P - b) / 2.
To solve for s in the equation P=b+2s, we need to isolate s on one side of the equation. Here's the step-by-step explanation:
1. Start with the equation: P = b + 2s.
2. To isolate s, we need to get rid of the b term on the right side. We can do this by subtracting b from both sides of the equation:
P - b = b + 2s - b.
Simplifying the right side gives us:
P - b = 2s.
3. Now, we have 2s on the right side of the equation. To solve for s, we need to get rid of the coefficient 2. We can do this by dividing both sides of the equation by 2:
(P - b) / 2 = 2s / 2.
Simplifying further, we have:
(P - b) / 2 = s.
4. We have successfully isolated s, and the final result is:
s = (P - b) / 2.
Therefore, to solve for s, substitute the values of P and b into the equation s = (P - b) / 2.