All Calculus AB Resources
Example Questions
Example Question #1 : Sketch And Describe Slope Fields
Which of the following is the slope field for exponential growth ( )? Assume .
If then our slope field will just be a graph of the value of . This is also easier to pick out if we recall that exponential growth only has one equilibrium at . Otherwise the graph of the function is constantly increasing above the x-axis and constantly decreasing below the y-axis. So when , the solution for all values of is . When , for all values of , the solution is . Following this trend we can make a table with all solutions and plot our solutions. This will result in the slope field above.
Example Question #1 : Sketch And Describe Slope Fields
From the following slope field, what are the equilibria of the differential equation?
There is not enough information given
Looking at this slope field, let’s start by looking along the x-axis. There appears to be no solutions plotted here. This means that the function is undefined at these points. We know that the function is at equilibrium if the tangent line (slope) is equal to zero. So if we look at our solutions, we see that the tangent lines are horizontal at for any value. And so this is our equilibrium solution.
Example Question #1 : Sketch And Describe Slope Fields
From the following slope field, what are the equilibria of the differential equation?
There is not enough information given
If we make a table based off of the slope field given, it will look something like this.
Looking at this table we see a trend; when (or when - the same thing) the tangent line is . This means we are at equilibrium when .
Example Question #3 : Sketch And Describe Slope Fields
True or False: The only way to find equilibrium points is to use a slope field.
False
True
False
We are able to find the equilibrium points to a differential equation numerically. We use slope fields because often times we will encounter complicated differential equations and this is the easiest way to find the equilibrium points or look at trends.
Example Question #1 : Sketch And Describe Slope Fields
From the slope field given, what is the carrying capacity of the population being modeled.
There is an equilibrium point at but this is because if your population is at zero organisms, then there is no potential for growth (assuming that we are not considering spontaneous generation). We see the tangent lines also have a slope of zero, meaning the function is at equilibrium, at . This means that our carrying capacity is .
Example Question #4 : Sketch And Describe Slope Fields
Which of the following is the slope field for the differential equation ?
Our equilibria will be where the tangent lines have a slope of . If we make a table we see that the tangent lines will be when .
Example Question #3 : Sketch And Describe Slope Fields
True or False: You can only graph short line segments in a slope field.
False
True
False
We are actually able to connect these line segments or start at an initial tangent slope and graph the solution curve. This allows us to see, if we have an initial condition, what the solution will be and what trend the curve will follow.
Example Question #581 : Calculus Ab
What is the main purpose of a slope field?
To determine positive vs negative intervals of our function
To determine solutions of a first order differential equation
To determine intervals of concavity
To graph a function
To determine solutions of a first order differential equation
A slope field is a visual representation of a differential equation in two dimensions. This shows us the rate of change at every point and we can also determine the curve that is formed at every single point. So each individual point of a slope field (or vector field) tells us the slope of a function .
Example Question #1 : Sketch And Describe Slope Fields
How does one graph a slope field?
Graph the derivative of a first order differential equation at each point
Graph the solutions of a first order differential equation at each point
Graph the second derivative of a first order differential equation at each point
Graph the solutions of a first order function at each point
Graph the solutions of a first order differential equation at each point
We use slope fields when the differential equation we are given is too complicated to solve. By plotting solutions of differential equations, we can see trends of our function , we can find equilibrium points, carrying capacities, etc.
Example Question #1 : Sketch And Describe Slope Fields
Which of the following is the slope field for the differential equation ?
The way to go about this problem is to make an table and plug in and into our differential equation to find solutions. We then plot the solutions at these points in our table. It is important to note that our solutions are slopes, so we draw small line segments or vectors with the slope from our solution at each point.
Here is a sample of what your table should look like:
If we continue on like this, we will see that the slope field given above is the corresponding slope field for this differential equation.
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