4.5 Solving Related Rates Problems

Cards (32)

The first step in solving a related rates problem is to identify the variables and their relationships
Steps to identify variables and their relationships in related rates problems
1️⃣ List all variables involved
2️⃣ Determine the relationships between variables
3️⃣ Identify the unknown variable
4️⃣ Express the rate of change of the unknown variable
The relationships between variables in related rates problems are always linear.
False
Steps to differentiate the relationship equation with respect to time
1️⃣ Take the derivative of both sides
2️⃣ Apply the chain rule if necessary
3️⃣ Use the product rule if necessary
In a related rates problem, the first step is to identify the variables
Steps to differentiate a relationship with respect to time in related rates problems:
1️⃣ Take the derivative of both sides of the relationship equation
2️⃣ Apply the chain rule if variables depend on time
3️⃣ Use the product rule if necessary
After differentiating, substitute the known values and solve for the unknown rate
Match the solution checks with their descriptions:
Ensure correct units ↔️ Verify the units of the calculated rate of change
Confirm the sign ↔️ Check if the rate of change is increasing or decreasing
Check the magnitude ↔️ Ensure the numerical value is reasonable
Steps in analyzing the solution of a related rates problem
1️⃣ Interpret what the rate of change tells us about the system's behavior
2️⃣ Relate the rate of change to other variables and their rates of change
3️⃣ Consider the practical significance of the rate of change in a real-world context
When checking a solution, it's important to ensure the units of the rate of change are correct
Why is it important to check the magnitude of the rate of change in a related rates problem?
To ensure reasonableness
The rate of change in a related rates problem is independent of other variables.
False
The rate of change in a related rates problem always indicates an increase in the system's quantity.
False
A positive rate of change for the volume of a cylinder indicates that the volume is increasing.
True
A positive rate of change indicates that the volume of a cylinder is increasing
The rate of change in a related rates problem is independent of the rates of change of other variables.
False
What is the second step in solving a related rates problem?
Differentiate with respect to time
When solving related rates problems, it is necessary to list only the known variables.
False
What is the goal of identifying the unknown variable in a related rates problem?
Find its rate of change
The volume of a cylinder is given by the formula $V =$ $\pi r^{2} h$ , where r is the radius and h is the height
What is the purpose of differentiating the relationship equation with respect to time in a related rates problem?
Relate the rates of change
The derivative of $V =$ $\pi r^{2} h$ with respect to time is $\frac{dV}{dt} =$ \pi \left(2r\frac{dr}{dt}h + r^{2}\frac{dh}{dt}\right). 
True
To find the rates of change in a related rates problem, we differentiate the relationship equation with respect to time. 
True
What is the derivative of $V =$ $\pi r^{2} h$ with respect to $t$ ? 
$\frac{dV}{dt} =$ \pi \left(2r\frac{dr}{dt}h + r^{2}\frac{dh}{dt}\right)
After solving for the unknown rate, it is important to check and analyze the solution for correctness. 
True
Steps in checking the solution of a related rates problem
1️⃣ Ensure the units of the rate of change are correct
2️⃣ Confirm the rate of change has the expected sign
3️⃣ Check that the magnitude of the rate of change is reasonable
The rate of change in a related rates problem must always be positive.
False
The calculated rate of change tells us about the behavior of the system
What should you consider when analyzing the practical significance of a rate of change?
Real-world context
What is one example of the practical significance of a rate of change in a real-world context?
Monitoring container growth
What does the rate of change tell us about the behavior of a system in related rates problems?
System dynamics
Match the concept with its description in the analysis of related rates solutions:
Practical significance ↔️ Real-world application of the rate of change
System behavior ↔️ Changes in the system over time