These NCERT Solutions for Class 12 Maths Chapter 6 Application of Derivatives Ex 6.4 Questions and Answers are prepared by our highly skilled subject experts. https://mcq-questions.com/ncert-solutions-for-class-12-maths-chapter-6-ex-6-4/
NCERT Solutions for Class 12 Maths Chapter 6 Application of Derivatives Exercise 6.4
Ex 6.4 Class 12 NCERT Solutions Question 1.
Using differentials, find the approximate value of each of the following up to 3 places of decimal.
i. \(\sqrt { 25.3 } \)
ii. \(\sqrt { 49.5 } \)
iii. \(\sqrt { 0.6 } \)
iv. \({ \left( 0.009 \right) }^{ \frac { 1 }{ 3 } }\)
v. \({ \left( 0.999 \right) }^{ \frac { 1 }{ 10 } }\)
vi. \({ \left( 15 \right) }^{ \frac { 1 }{ 4 } }\)
vii. \({ \left( 26 \right) }^{ \frac { 1 }{ 3 } }\)
viii. \({ \left( 255 \right) }^{ \frac { 1 }{ 4 } }\)
ix. \({ \left( 82 \right) }^{ \frac { 1 }{ 4 } }\)
x. \({ \left( 401 \right) }^{ \frac { 1 }{ 2 } }\)
xi. \({ \left( 0.0037 \right) }^{ \frac { 1 }{ 2 } }\)
xii. \({ \left( 26.57 \right) }^{ \frac { 1 }{ 3 } }\)
xiii. \({ \left( 81.5 \right) }^{ \frac { 1 }{ 4 } }\)
xiv. \({ \left( 3.968 \right) }^{ \frac { 3 }{ 2 } }\)
xv. \({ \left( 32.15 \right) }^{ \frac { 1 }{ 5 } }\)
Solution:
iv. \({ \left( 0.009 \right) }^{ \frac { 1 }{ 3 } }\)
v. \({ \left( 0.999 \right) }^{ \frac { 1 }{ 10 } }\)
∆y is approximately equal to dy
∴ (1) ⇒ \({ \left( 0.999 \right) }^{ \frac { 1 }{ 10 } }\) ≈ 1 – 0.0001 ≈ 0.9999
i.e., \({ \left( 0.999 \right) }^{ \frac { 1 }{ 10 } }\) ≈ 0.9999
vi. \({ \left( 15 \right) }^{ \frac { 1 }{ 4 } }\)
vii. \({ \left( 26 \right) }^{ \frac { 1 }{ 3 } }\)
viii. \({ \left( 255 \right) }^{ \frac { 1 }{ 4 } }\)
ix. \({ \left( 82 \right) }^{ \frac { 1 }{ 4 } }\)
x. \({ \left( 401 \right) }^{ \frac { 1 }{ 2 } }\)
xi. \({ \left( 0.0037 \right) }^{ \frac { 1 }{ 2 } }\)
xii. \({ \left( 26.57 \right) }^{ \frac { 1 }{ 3 } }\)
xiii. \({ \left( 81.5 \right) }^{ \frac { 1 }{ 4 } }\)
xv. \({ \left( 32.15 \right) }^{ \frac { 1 }{ 5 } }\)
Exercise 6.4 Class 12 NCERT Solutions Question 2.
Find the approximate value of f (2.01), where f (x) = 4x² + 5x + 2
Solution:
f(x+∆x) = f(2.01), f(x) = f (2) = 4.2² + 5.2 + 2 = 28,
f’ (x) = 8x + 5 Now, f(x + ∆x) = f(x) + ∆f(x)
= f(x) + f’ (x) . ∆x = 28 + (8x + 5) ∆x
= 28 + (16 + 5) x 0.01
= 28 + 21 x 0.01
= 28 + 0.21
Hence, f(2.01) ≈ 28 x 21.
6.4 Class 12 NCERT Solutions Question 3.
Find the approximate value of f (5.001), where f(x) = x3 – 7x2 +15.
Solution:
Let x + ∆x = 5.001, x = 5 and ∆x = 0.001,
f(x) = f(5) = – 35
f(x + ∆x) = f(x) + ∆f(x) = f(x) + f'(x).∆x
= (x3 – 7x² + 15) + (3x² – 14x) × ∆x
f(5.001) = – 35 + (3 × 5² – 14 × 5) × 0.001
⇒ f (5.001) = – 35 + 0.005
= – 34.995.
Exercise 6.4 Class 12 Maths Question 4.
Find the approximate change in the volume V of a cube of side x metres caused by increasing the side by 1%.
Solution:
The side of the cube = x meters.
Increase in side = 1% = 0.01 × x = 0.01 x
Volume of cube V = x3
∴ ∆v = \(\frac { dv }{ dx }\) × ∆x
= 3x² × 0.01 x
= 0.03 x3 m3
Class 12 Maths Ex 6.4 Solutions Question 5.
Find the approximate change in the surface area of a cube of side x metres caused by decreasing the side by 1%.
Solution:
The side of the cube = x m;
Decrease in side = 1% = 0.01 x
Increase in side = ∆x = – 0.01 x
Surface area of cube = 6x² m² = S
∴ \(\frac { ds }{ dx }\) × ∆x = 12x × (- 0.01 x)
= – 0.12 x² m².
Ex 6.4 Class 12 Maths Ncert Solutions Question 6.
If the radius of a sphere is measured as 7m with an error of 0.02 m, then find the approximate error in calculating its volume.
Solution:
Radius of the sphere = 7m : ∆r = 0.02 m.
Volume of the sphere V = \(\frac { 4 }{ 3 } \pi { r }^{ 3 }\)
\(\Delta V=\frac { dV }{ dr } \times \Delta r=\frac { 4 }{ 3 } .\pi .3{ r }^{ 2 }\times \Delta r\)
= 4π × 7² × 0.02
= 3.92 πm³
Ex6.4 Class 12 NCERT Solutions Question 7.
If the radius of a sphere is measured as 9 m with an error of 0.03 m, then find the approximate error in calculating its surface area.
Solution:
Radius of the sphere = 9 m: ∆r = 0.03m
Surface area of sphere S = 4πr²
∆s = \(\frac { ds }{ dr }\) × ∆r
= 8πr × ∆r
= 8π × 9 × 0.03
= 2.16 πm².
Question 8.
If f (x) = 3x² + 15x + 5, then the approximate value of f (3.02) is
(a) 47.66
(b) 57.66
(c) 67.66
(d) 77.66
Solution:
(d) x + ∆x = 3.02, where x = 30, ∆x = 0.2,
∆f(x) = f(x + ∆x) – f(x)
⇒ f(x + ∆x) = f(x) + ∆f(x) = f(x) + f'(x) ∆x
Now f(x) = 3×2 + 15x + 5; f(3) = 77, f’ (x) = 6x + 15
f’ (3) = 33
∴ f (3.02) = 87 + 33 x 0.02 = 77.66
Question 9.
The approximate change in the volume of a cube of side x metres caused by increasing the side by 3% is
(a) 0.06 x³ m³
(b) 0.6 x³ m³
(c) 0.09 x³ m³
(d) 0.9 x³ m³
Solution:
(c) Side of a cube = x meters
Volume of cube = x³,
for ∆x ⇒ 3% of x = 0.03 x
Let ∆v be the change in v0l. ∆v = \(\frac { dv }{ dx }\) x ∆x = 3x² × ∆x
But, ∆x = 0.03 x
⇒ ∆v = 3x² x 0.03 x
= 0.09 x³m³