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Chapter 2: Problem 49

Given \(P+Q=z\), solve for \(P\).

Short Answer

Expert verified
Given the equation \(P + Q = z\), we solve for \(P\) by subtracting \(Q\) from both sides, which gives us \(P = z - Q\).

Step by step solution

01

Write down the given equation

First, we write down the given equation as it is: \(P + Q = z\).
02

Subtract Q from both sides

In order to isolate \(P\), we will subtract \(Q\) from both sides of the equation. This cancels out \(Q\) on the left side of the equation: \[ P + Q - Q = z - Q \]
03

Simplify the equation

Now, let's simplify the equation. Since \(Q - Q\) equals zero, we are left with: \[ P = z - Q \]
04

Write down the final answer

We have successfully isolated \(P\) on one side of the equation, and our final answer is: \[ P = z - Q \]

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Key Concepts

These are the key concepts you need to understand to accurately answer the question.

Equation Solving
When confronted with an equation like \( P + Q = z \), the goal is to solve for a specific variable, in this case, \( P \). The process of equation solving involves finding the value of a variable that makes the equation true. In practice, this means performing operations that simplify the equation until the variable of interest stands alone on one side.
To solve equations, you commonly apply inverse operations. These operations, like addition and subtraction or multiplication and division, undo each other. For this equation, solving involves strategic steps to shift all terms not containing \( P \) to the opposite side.
  • Look closely at operations within the equation. Here, addition is initially used.
  • Use subtraction, the inverse operation, to cancel terms as needed.
Understanding equation solving builds a foundation for more complex problem-solving tasks and helps in developing logic skills.
Isolating Variables
Isolating a variable is one of the crucial skills in basic algebra. The primary aim here is to have the variable of interest by itself on one side of the equation. When we isolate \( P \) in the equation \( P + Q = z \), our strategy involves moving \( Q \) to the other side.
The best way to do this is by performing the opposite operation that’s currently affecting the variable. For instance:
  • Here, \( Q \) is added to \( P \). Therefore, subtract \( Q \) from both sides to neutralize its effect on \( P \).
  • Ensure you perform operations equally on both sides to maintain the equation’s balance.
After isolating the variable, you'll find that the expression across the equation represents the variable's value. This is how we find that \( P = z - Q \). Isolating variables is a foundational skill that simplifies understanding algebraic relationships.
Algebraic Manipulation
Algebraic manipulation is the art of rewriting expressions to achieve a desired form. This could mean rearranging terms, factoring, expanding, or simplifying expressions like \( P + Q = z \). It involves making strategic decisions on what operations to apply to rearrange terms effectively.

Key techniques in algebraic manipulation include:
  • Adding or subtracting terms to both sides, allowing for term removal or relocation.
  • Combining like terms to streamline the equation.
With our equation, the algebraic manipulation involved subtraction of \( Q \) from both sides, leading to a simplified form of \( P = z - Q \). This step is pivotal for transforming equations into an interpretable format. Enhance your algebra skills by practicing manipulation in varied contexts.

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Most popular questions from this chapter

A \(2.50-g\) piece of wood is burned in a calorimeter that contains \(0.200 \mathrm{~kg}\) of water. The burning causes the water temperature to increase from \(22.1^{\circ} \mathrm{C}\) to \(28.7^{\circ} \mathrm{C}\). How much heat energy is released in joules? What is the energy content of the wood in joules per gram of wood?

A rectangular box measures \(6.00\) in. in length, \(7.00\) in. in width, and \(8.00\) in. in height. What is the volume of the box in liters? \([2.54 \mathrm{~cm}=1\) in.]

True or false? If any statement is false, rewrite it to make it true. (a) When multiplying or dividing a series of measured values, the number of significant figures in the answer is determined by the measured value having the fewest significant figures. (b) When adding or subtracting a series of measured values, the number of significant figures in the answer is determined by the measured value having the fewest significant figures.

Two students measure the density of gold. One works with a \(100-g\) bar of pure gold. The other works with a \(200-g\) bar of pure gold. Which student measures the larger density? Explain your answer.

Which one of the following expresses the measured value \(0.000003 \mathrm{~L}\) with the correct number of significant figures? (a) \(3 \mathrm{~mL}\) (b) \(3 \mu \mathrm{L}\) (c) \(3.00 \times 10^{-6} \mathrm{~L}\) (d) \(3.00 \times 10^{-3} \mathrm{~mL}\)
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