All Intermediate Geometry Resources
Example Questions
Example Question #7 : How To Find The Equation Of A Parallel Line
A line is parallel to the line of the equation
and passes through the point .
Give the equation of the line in standard form.
None of the other choices gives the correct response.
Two parallel lines have the same slope. Therefore, it is necessary to find the slope of the line of the equation
Rewrite the equation in slope-intercept form . , the coefficient of , will be the slope of the line.
Add to both sides:
Multiply both sides by , distributing on the right:
The slope of this line is . The slope of the first line will be the same. The slope-intercept form of the equation of this line will be
.
To find , set and and solve:
Subtract from both sides:
The slope-intercept form of the equation is
To rewrite in standard form with integer coefficients:
Multiply both sides by 7:
Add to both sides:
,
the correct equation in standard form.
Example Question #1 : How To Find The Equation Of A Tangent Line
Given the function , find the equation of the tangent line passing through .
Find the slope of . The slope is 3.
Substitute to determine the y-value.
The point is .
Use the slope-intercept formula to find the y-intercept, given the point and slope.
Substitute the point and the slope.
Substitute the y-intercept and slope back to the slope-intercept formula.
The correct answer is:
Example Question #1 : How To Find The Equation Of A Tangent Line
Find the equation of the tangent line at the point if the given function is .
Write in slope-intercept form and determine the slope.
Rearranging our equation to be in slope-intercept form we get:
.
The slope is our value which is .
Substitute the slope and the point to the slope-intercept form.
Substitute the slope and y-intercept to find our final equation.
Example Question #1 : How To Find The Equation Of A Tangent Line
What is the equation of the tangent line at to the equation ?
Rewrite in slope-intercept form to determine the slope. Remember slope-intercept form is .
Therefore, the equation becomes,
.
The slope is the value of the function thus, it is .
Substitute back to the original equation to find the value of .
Substitute the point and the slope of the line into the slope-intercept equation.
Substitute the point and the slope back in to the slope-intercept formula.
Example Question #2 : How To Find The Equation Of A Tangent Line
Write the equation for the tangent line of the circle through the point .
The circle's center is . The tangent line will be perpendicular to the line going through the points and , so it will be helpful to know the slope of this line:
Since the tangent line is perpendicular, its slope is
To write the equation in the form , we need to solve for "b," the y-intercept. We can plug in the slope for "m" and the coordinates of the point for x and y:
The equation is
Example Question #2 : How To Find The Equation Of A Tangent Line
Find the equation for the tangent line at for the circle .
The circle's center is . The tangent line will be perpendicular to the line going through the points and , so it will be helpful to know the slope of this line:
Since the tangent line is perpendicular, its slope is
To write the equation in the form , we need to solve for "b," the y-intercept. We can plug in the slope for "m" and the coordinates of the point for x and y:
The equation is
Example Question #2 : How To Find The Equation Of A Tangent Line
Find the equation for the tangent line of the circle at the point .
The circle's center is . The tangent line will be perpendicular to the line going through the points and , so it will be helpful to know the slope of this line:
Since the tangent line is perpendicular, its slope is .
To write the equation in the form , we need to solve for "b," the y-intercept. We can plug in the slope for "m" and the coordinates of the point for x and y:
The equation is
Example Question #3 : How To Find The Equation Of A Tangent Line
Find the equation for the tangent line to the circle at the point .
The circle's center is . The tangent line will be perpendicular to the line going through the points and , so it will be helpful to know the slope of this line:
Since the tangent line is perpendicular, its slope is
To write the equation in the form , we need to solve for "b," the y-intercept. We can plug in the slope for "m" and the coordinates of the point for x and y:
The equation is
Example Question #8 : How To Find The Equation Of A Tangent Line
Refer to the above diagram,
Give the equation of the line tangent to the circle at the point shown.
None of the other choices gives the correct response.
The tangent to a circle at a given point is perpendicular to the radius that has the center and the given point as its endpoints.
The circle has its center at origin ; since this and are the endpoints of the radius - and the line that includes this radius includes both points - its slope can be found by setting in the following slope formula:
The tangent line, being perpendicular to this radius, has as its slope the opposite of the reciprocal of this, which is . Since the tangent line includes point , set in the point-slope formula and simplify:
Example Question #1 : How To Find The Equation Of A Tangent Line
A line is tangent to the circle at the point
What is the equation of this line?
None of the other answers are correct.
The center of this circle is
Therefore, the radius with endpoint has slope
The tangent line at is perpendicular to this radius; therefore, its slope is the opposite of the reciprocal of , or .
Now use the point-slope formula with this slope and the point of tangency: