Question 1. Using integration, find the area of region bounded between the line x = 2 and parabola y2 = 8x
Solution:
Here,
Given equations are:
x = 2 ……..(1)
y2 = 8x ……..(2)
Here,
Equation (1) represents a line parallel to y-axis and equation (2) represents a parabola with vertex at origin and x-axis,
Here is the rough sketch
We have to find the area of shaded region. We sliced it in vertical rectangle width of rectangle = △x,
Length = (y – 0) = y
Area of rectangle = y△x
This rectangle can move horizontal from x = 0 to x = 2
Required area = Shaded region OCBO
= 2 (Shaded region OABO)
=
Required area =
square units.
Question 2. Using integration, find the area of the region bounded by the line y – 1 = x, the x-axis and the ordinates x = -2 and x = 3.
Solution:
The find area of region bounded by x-axis the ordinates x = -2 and x = 3
y – 1 = x ………….(1)
Equation (1) is a line that meets at axes at (0, 1) and (-1, 0)
Here, is the rough sketch
Required area is enclosed between the lines.
Required area = Region ABCA + Region ADEA
Question 3. Find the area of the region bounded by the parabola y2 = 4ax and the line x = a
Solution:
Here we have to find the area of the region that is bounded by
x = a ………(1)
and
y2 = 4a ………(2)
Equation (1) represents a line parallel to y-axis and equation (2) represent a parabola with vertex at origin and axis as x-axis.
Here, is the rough sketch
Here we have to find area between the region,
Thus, slice it in rectangles of
Width = △x
Length = y – 0 = y
Area of rectangle = y△x
This assumed triangle can go from x = 0 to x = a.
Required area = Region OCBO
= 2 (Region OABO)
Required area =
square units
Question 4. Find the area lying above the x-axis and under the parabola y = 4x – x2.
Solution:
We have to find here the bounded area by x-axis and parabola
y = 4x – x2
x2 – 4x +4 = -y + 4
(x – 2)2 = -(y – 4) ……….(1)
Equation (1) represent a downward parabola with vertex (2, 4) and passing through (0, 0) and (0, 4).
Here is the rough sketch
Here the shaded region represents the required area.
We slice the region in approximation rectangles
Width = △x
Length = y – 0 = y
Area of rectangle = y△x
This approximation rectangle slide from x = 0 to x = a
Thus,
Required area = Region OABO
Required area =
square units
Question 5. Draw a rough sketch to indicate the region bounded between the curve y2 = 4x and the line x = 3. Also, find the area of this region.
Solution:
We have to find area bounded by
y2 = 4x ……..(1)
and
x = 3 ………..(2)
Equation (1) represents a parabola with vertex at origin and axis as x-axis and equation (2) represents a line parallel to y-axis
Here is the rough sketch
Shaded region represents the required area that we have sliced in the form of a rectangle of
Width = △x
Length = y – 0 = y
This approximation rectangle slide from x = 0 to x = 3
Required area = Region OCBO
= 2(Region OABO)
Required area =
square units
Question 6. Make a rough sketch of the graph of the function y = 4 – x2, 0 ≤ x ≤ 2 and determine the area enclosed by the curve, the x-axis, and the line x = 0 and x = 2.
Solution:
Here, we will find the area enclosed by
y = 4 – x2
x2 = -(y – 4) ……….(1)
x = 0 ………(2)
x = 2 ……….(3)
Equation (1) represents a downward parabola with vertex at (0, 4) and passing through (2, 0), (-2, 0). Equation (2) represents y-axis and equation (3) represents a line parallel to y-axis.
Here’s a rough sketch
Shaded region represents the required area that we have sliced in the form of a rectangle of
Width = △x
length = y – 0 = y
This approximation rectangle slide from x = 0 to x = 2
Required area = Region OABO
Required area =
square units.
Question 7. Sketch the graph of
Solution:
Here, we will find the area enclosed by x-axis and
y2 = x + 1 …….(1)
x = 0 ………(2)
x = 4 ………(3)
Equation (1) represents a parabola with vertex at (-1, 0) and passing through (0, 1) and (0, -1). Equation (2) represents y-axis and equation (3) represents a line parallel to y-axis passing through (4, 0).
Thus, here is the rough sketch;
Shaded region represents the required area that we have sliced in the form of a rectangle of
Width = △x
Length = y – 0 = y
Area of rectangle = y△x
This approximation rectangle slide from x = 0 to x = 4
Required area = Region OECDO
Required area =
square units or square units.
Question 8. Find the area under the curve
Solution:
Here, we will find the area enclosed by x-axis
x = 0,
x = 2 ………(1)
y2 = 6x + 4 ……….(2)
Equation (1) represents y-axis and a line parallel to y-axis passing through (2, 0). Equation (2) represents a parabola with vertex at
and passes through the points (0, 2) , ( 0, -2). Thus, here is the rough sketch;
Shaded region represents the required area that we have sliced in the form of a rectangle of
Width = △x
Length = y – 0 = y
Area of rectangle = y△x
This approximation rectangle slide from x = 0 to x = 2,
Required area = Region OABCO
Required area =
square units.
Question 9. Draw the rough sketch of y2 + 1 = x, x ≤ 2. Find the area enclosed by the curve and the line x = 2.
Solution:
Here, we will find the area enclosed by x-axis
y2 = x + 1 ……….(1)
and
x = 2 ……………(2)
Equation (1) is a parabola with vertex at (0, 1) and axis as x-axis.
Equation (2) represents a line parallel to y-axis passing through (2, 0)
Thus, here is the rough sketch;
Shaded region represents the required area that we have sliced in the form of a rectangle of
Width = △x
Length = y – 0 = y
Area of rectangle = y△x
This approximation rectangle slide from x = 0 to x = 2,
Required area = Region ABCA
= 2(Region AOCA)
Required area =
square units.
Question 10. Draw a rough sketch of the graph of the curve
Solution:
Here, we can observe that ellipse is symmetrical about x-axis.
Area bounded by ellipse =