7.6 Finding Particular Solutions Using Initial Conditions

Cards (56)

A general solution to a differential equation satisfies the equation and includes a constant of integration. 
True
Differential equations are equations that involve derivatives
Initial conditions are used to determine the constant of integration in a particular solution. 
True
Match the term with its definition:
Differential Equation ↔️ An equation involving derivatives
General Solution ↔️ Family of functions satisfying the equation
Particular Solution ↔️ Specific solution obtained by initial condition
Initial Condition ↔️ Specifies function value at a point
Match the method to solve differential equations with its description:
Separation of Variables ↔️ Rearrange and integrate variables
Integrating Factors ↔️ Multiply by a factor to make exact
Laplace Transforms ↔️ Convert to algebraic equation
Numerical Methods ↔️ Approximate solutions
Different methods to solve differential equations are suited for specific types of equations. 
True
A general solution to a differential equation includes an arbitrary constant of integration denoted by $C$ . 
True
The method of separation of variables is used when the equation can be separated into f(y)dy = g(x)dx
What is obtained by integrating a differential equation?
General solution
Steps to find a particular solution using an initial condition:
1️⃣ Find the general solution
2️⃣ Apply the initial condition
3️⃣ Solve for the constant $C$
To find a particular solution, the values from the initial condition are substituted into the general solution.
A differential equation involves derivatives.
The particular solution of the differential equation $\frac{dy}{dx} =$ $2x$ with the initial condition $y(0) =$ $3$ is y = x^{2} + 3</latex>. 
True
What does a general solution represent?
A family of functions
What do initial conditions specify?
Value of the function
Match the term with its definition:
Differential Equation ↔️ An equation involving derivatives of a function
General Solution ↔️ The family of functions that satisfy the differential equation
Particular Solution ↔️ A specific solution obtained by using an initial condition
What does the resulting expression after integration represent?
General solution
Which method involves rearranging the equation to separate variables and integrate both sides?
Separation of Variables
A particular solution has a specific value for the constant $C$ . 
True
A general solution includes an arbitrary constant denoted by C.
What is the first step in finding a particular solution to a differential equation using initial conditions?
Obtain general solution
Match the term with its definition:
General Solution ↔️ Family of solutions to the differential equation
Particular Solution ↔️ Specific solution satisfying the initial condition
Steps to find a particular solution using an initial condition:
1️⃣ Obtain the general solution
2️⃣ Substitute the initial condition
3️⃣ Solve for the constant $C$
4️⃣ Replace $C$ in the general solution
The particular solution $y =$ $x^{2} +$ $3$ satisfies the differential equation $\frac{dy}{dx} =$ $2x$ with the initial condition $y(0) =$ $3$  
True
The general solution of a differential equation always includes an arbitrary constant $C$  
True
Match the term with its definition:
General Solution ↔️ Family of solutions to the differential equation
Particular Solution ↔️ Specific solution satisfying the initial condition
When verifying a particular solution, you must substitute it into the left-hand side of the differential equation 
True
Steps to verify a particular solution:
1️⃣ Substitute the particular solution into the original equation
2️⃣ Evaluate the necessary derivatives
3️⃣ Compare both sides of the equation
What is the first step to verify the particular solution $y =$ $x^{2} +$ $3$ for the differential equation $\frac{dy}{dx} =$ $2x$ ? 
Substitute the solution
The particular solution $y =$ $x^{2} +$ $3$ satisfies the differential equation \frac{dy}{dx} = 2x</latex> 
True
An initial condition specifies the value of the function at a given point. 
True
What is the particular solution of the differential equation $\frac{dy}{dx} =$ $2x$ with y(0) = 3</latex>? 
$y =$ $x^{2} +$ $3$
A particular solution is a specific function that satisfies both the differential equation and the initial condition. 
True
In the verification process, the left-hand side of the equation must match the right-hand side.
Match the term with its definition:
General Solution ↔️ The family of functions that satisfy the differential equation
Particular Solution ↔️ A specific solution obtained by using an initial condition
Initial Condition ↔️ A condition that specifies the value of the function at a given point
A particular solution is determined by initial conditions.
The constant $C$ in a particular solution is always arbitrary. 
False
What is the value of $C$ in the particular solution $y =$ $x^{2} +$ $3$ ? 
$3$
A particular solution to a differential equation is found by using an initial condition
To find the particular solution of the differential equation $\frac{dy}{dx} =$ $2x$ with $y(0) =$ $3$ , the value of the constant $C$ is 3