06 अवकलज का अनुप्रयोग
अभ्यास 04
Question:
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 in surface area
Answer:
Step 1: Find the surface area of the sphere using the given radius. Surface area = 4πr2
Step 2: Substitute the given radius in the formula and calculate the surface area. Surface area = 4π(9)2 = 4π(81) = 304π
Step 3: Find the approximate error in calculating the surface area. Approximate error = 0.03 x 4π = 0.12π m2
Question:
Using differentials, find the sum of digits approximate value of the following up to 3 places of decimal. (0.999)^1/10
Answer:
Step 1: Calculate the value of (0.999)^1/10. Answer: 0.9512
Step 2: Use differentials to approximate the sum of digits in 0.9512. Answer: 9 + 5 + 1 + 2 = 17
Question:
Using differentials, find the sum of digits approximate value of the following up to 3 places of decimal. (0.0037)^1/2
Answer:
Answer: Step 1: Calculate the square root of 0.0037.
Step 2: Use differentials to approximate the value of the square root up to 3 places of decimal.
Step 3: Add the digits of the approximate value to get the sum.
Answer: The sum of digits of the approximate value of (0.0037)^1/2 is 6.
Question:
If the radius of a sphere is measured as 7m with an error of 0.02m, then find the approximate error in calculating its volume.
Answer:
Step 1: Calculate the volume of the sphere.
Volume = (4/3)πr3
Substituting the radius as 7m,
Volume = (4/3) × 3.14 × (7)3
Volume = 1436.76 m3
Step 2: Calculate the approximate error in calculating the volume.
Error = (Error in radius) × (Derivative of volume with respect to radius)
Error = (0.02) × (4πr2)
Error = (0.02) × (4 × 3.14 × (7)2)
Error = 101.11 m3
Therefore, the approximate error in calculating the volume of the sphere is 101.11 m3.
Question:
The approximate change in the volume of a cube of side x metres caused by increasing the side by 3% is : A 0.06x3m^3 B 0.6x3m^3 C 0.09x3m^3 D 0.9x3m^3
Answer:
Step 1: Find the original volume of the cube. The volume of a cube is given by V = x3, where x is the side length of the cube.
Step 2: Find the new side length of the cube. The new side length of the cube will be increased by 3%. Therefore, the new side length will be 1.03x.
Step 3: Find the new volume of the cube. Using the formula for the volume of a cube, the new volume of the cube will be (1.03x)3.
Step 4: Find the approximate change in the volume of the cube. The approximate change in the volume of the cube is given by the difference between the new volume and the original volume. Therefore, the approximate change in the volume of the cube is (1.03x)3 - x3 = 0.09x3m^3.
Answer: C 0.09x3m^3
Question:
Using differentials, find the approximate value of each of the following up to 3 places of decimal. (i) √25.3 (ii) √49.5 (iii) √0.6 (iv) (0.009)^1/3 (v) (0.999)^1/10 (vi) (15)^1/4 (vii) (26)^1/3 (viii) (255)^1/4 (ix) (82)^1/4 (x) (401)^1/2 (xi) (0.0037)^1/2
Answer:
(i) √25.3 ≈ 5.04 (ii) √49.5 ≈ 7.02 (iii) √0.6 ≈ 0.78 (iv) (0.009)^1/3 ≈ 0.10 (v) (0.999)^1/10 ≈ 0.95 (vi) (15)^1/4 ≈ 2.25 (vii) (26)^1/3 ≈ 2.96 (viii) (255)^1/4 ≈ 8.05 (ix) (82)^1/4 ≈ 2.86 (x) (401)^1/2 ≈ 20.05 (xi) (0.0037)^1/2 ≈ 0.06
Question:
Using differentials, find the sum of digits approximate value of the following up to 3 places of decimal. (401)^1/2
Answer:
Answer: Step 1: Calculate the exact value of (401)^1/2
Exact Value = 20.04987562112089
Step 2: Calculate the differentials of (401)^1/2
Differentials = 0.04987562112089
Step 3: Add the differentials to the exact value to get the approximate value
Approximate Value = 20.09975124223178
Step 4: Round the approximate value to 3 decimal places
Rounded Approximate Value = 20.100
Question:
If f(x)=3x^2+15x+5, then the approximate value of f(3.02) is. A 47.66 B 57.66 C 67.66 D 77.66
Answer:
Step 1: Substitute x = 3.02 into the function f(x)
f(3.02) = 3(3.02)^2 + 15(3.02) + 5
Step 2: Simplify the equation
f(3.02) = 28.9608 + 45.3 + 5
Step 3: Calculate the value of f(3.02)
f(3.02) = 79.2608
Step 4: Choose the correct answer
Answer: D 77.66
Question:
Find the approximate change in the volume V of a cube of side x metres caused by increasing side by 1% percent.
Answer:
Step 1: Calculate the initial volume of the cube: V = x3
Step 2: Calculate the new side length of the cube after the 1% increase: x’ = x + 0.01x
Step 3: Calculate the new volume of the cube: V’ = (x + 0.01x)3
Step 4: Calculate the approximate change in volume: ΔV = V’ - V = (x + 0.01x)3 - x3
Step 5: Simplify the expression to get the final answer: ΔV = 3x2(0.01x)
Question:
Using differentials, find the approximate value of the following up to 3 decimal places. √49.5
Answer:
Answer: Step 1: Calculate the square root of 49.5 using a calculator: √49.5 = 7.04
Step 2: Use differentials to approximate the value of the square root: 7.04 + 0.01 = 7.05
Question:
Using differentials, find the sum of digits approximate value of the following up to 3 places of decimal. (82)^1/4
Answer:
Answer:
Step 1: Calculate the exact value of (82)^1/4
(82)^1/4 = 2.82843
Step 2: Use differentials to approximate the value of (82)^1/4
Differentials = (82 + Δ)^1/4 - (82)^1/4
Differentials = 2.83 - 2.82843 = 0.00157
Step 3: Round the value of the differentials to 3 places of decimal
Differentials = 0.002
Step 4: Add the digits of the differentials
0 + 0 + 2 = 2
Question:
Using differentials, find the sum of digits approximate value of the following up to 3 places of decimal. (0.999)^1/3
Answer:
Answer: Step 1: Calculate the derivative of (0.999)^1/3 Derivative of (0.999)^1/3 = 0.333(0.999)^-2/3
Step 2: Calculate the differential of (0.999)^1/3 Differential of (0.999)^1/3 = 0.333(0.999)^-2/3 * 0.001
Step 3: Calculate the sum of digits approximate value of (0.999)^1/3 Sum of digits approximate value = (0.999)^1/3 + 0.333(0.999)^-2/3 * 0.001 = 0.999 + 0.000333 = 0.999333 (rounded to 3 decimal places)
Question:
Using differentials, find the sum of digits approximate value of the following up to 3 places of decimal. (255)^1/4
Answer:
Answer:
Step 1: Calculate the exact value of (255)^1/4
Exact value = 5
Step 2: Calculate the differentials of (255)^1/4
Differentials = (1/4) * (255)^(-3/4)
Step 3: Calculate the approximate value of (255)^1/4
Approximate value = 5.000
Step 4: Calculate the sum of digits of the approximate value
Sum of digits = 5 + 0 + 0 + 0 = 5
Question:
Using differentials, find the sum of digits approximate value of the following up to 3 places of decimal. (26)^1/3
Answer:
Answer:
Step 1: Calculate the value of (26)^1/3
(26)^1/3 = 3.717
Step 2: Use differentials to approximate the sum of the digits of 3.717
Differential = 0.001
3.717 + 0.001 = 3.718
Step 3: Calculate the sum of the digits of 3.718
Sum of the digits = 3 + 7 + 1 + 8 = 19
Step 4: Round the result to 3 places of decimal
19.000
Question:
Find the approximate value of f(5.001), where f(x)=x^3−7x^2+15.
Answer:
f(5.001) = (5.001)^3 - 7(5.001)^2 + 15
f(5.001) ≈ 141.926
Question:
Using differentials, find the sum of digits approximate value of the following up to 3 places of decimal. (15)^1/4
Answer:
Answer:
Step 1: Calculate the value of (15)^1/4
(15)^1/4 = 2.902
Step 2: Use differentials to approximate the sum of the digits of the value
The sum of the digits of the value is 11 (2 + 9 + 0 + 2).
Step 3: Round the sum of the digits to 3 decimal places
The sum of the digits rounded to 3 decimal places is 11.000.
Question:
Using differentials, find the sum of digits approximate value of the following up to 3 places of decimal. √0.6
Answer:
Step 1: Find the square root of 0.6.
Answer: 0.7745966692414834
Step 2: Find the sum of the digits of the square root.
Answer: 22 (0 + 7 + 7 + 4 + 5 + 9 + 6 + 6 + 6 + 9 + 2 + 4 + 1 + 4 + 8 + 3 + 4)
Question:
Find the approximate value of f(2.01), where f(x)=4x^2+5x+2.
Answer:
f(2.01) = 4(2.01)^2 + 5(2.01) + 2
f(2.01) = 16.0824 + 10.05 + 2
f(2.01) = 28.1324
Question:
Using differentials, find the sum of digits approximate value of the following up to 3 places of decimal. (401)^1/2
Answer:
Answer:
Step 1: Calculate the square root of 401 using a calculator.
The square root of 401 is 20.049875621.
Step 2: Use differentials to approximate the sum of digits up to 3 decimal places.
The approximate sum of digits is 20.049.
Question:
Find the approximate change in the surface area of a cube of side x metres caused by decreasing the side by 1 percent.
Answer:
Step 1: Calculate the original surface area of the cube.
Surface area = 6x2 = 6x2xx = 6x2x2 = 24x2 = 48x
Step 2: Calculate the change in side length caused by decreasing the side by 1 percent.
Change in side length = 0.01x
Step 3: Calculate the new surface area of the cube.
Surface area = 6(x-0.01x)2 = 6(x2 - 0.02x2) = 6x2 - 0.12x2 = 24x2 - 0.12x2 = 48x2 - 0.12x2
Step 4: Calculate the approximate change in surface area.
Approximate change in surface area = 48x2 - (48x2 - 0.12x2) = 0.12x2
जेईई अध्ययन सामग्री (गणित)
01 संबंध एवं फलन
02 व्युत्क्रम त्रिकोणमितीय फलन
03 आव्यूह
04 सारणिक
05 सांत्यता और अवकलनीयता
06 अवकलज का अनुप्रयोग
07 समाकलन
08 समाकलन का अनुप्रयोग
09 वैक्टर
10 त्रिविमीय ज्यामिति का परिचय
11 रैखिक प्रोग्रामिंग
12 प्रायिकता