05 सांत्यता और अवकलनीयता

अभ्यास 07

Question:

Find the second order derivatives of x^2+3x+2

Answer:

Answer: The second order derivative of x^2+3x+2 is 2.

Question:

Find the second order derivatives of tan^−1x

Answer:

Solution:

Step 1: Recall that the derivative of tan^−1x is equal to 1/(1+x^2).

Step 2: Take the derivative of both sides with respect to x, using the chain rule.

Step 3: The derivative of 1/(1+x^2) is equal to -2x/(1+x^2)^2.

Step 4: Therefore, the second order derivative of tan^−1x is equal to -2/(1+x^2)^2.

Question:

Find the second order derivatives of sin(logx)

Answer:

Answer:

  1. Differentiate sin(logx) with respect to x: d/dx(sin(logx)) = cos(logx) * d/dx(logx)

  2. Differentiate logx with respect to x: d/dx(logx) = 1/x

  3. Substitute d/dx(logx) with 1/x in the first step: d/dx(sin(logx)) = cos(logx) * 1/x

  4. Differentiate d/dx(sin(logx)) with respect to x: d²/dx²(sin(logx)) = -sin(logx) * (1/x)²

Question:

If y=cos^−1x, find d^2y/dx^2 in terms of y alone.

Answer:

Answer:

d^2y/dx^2 = -sin(y)

Question:

Find the second order derivatives of logx

Answer:

Answer: Step 1: We can use the chain rule to differentiate logx.

Step 2: Let y = logx

Step 3: Differentiate y with respect to x to get the first order derivative:

dy/dx = 1/x

Step 4: Differentiate the first order derivative with respect to x to get the second order derivative:

d2y/dx2 = -1/x2

Question:

Find the second order derivatives of e^xsin5x

Answer:

Answer:

First order derivative: e^xsin5x + 5e^xcos5x

Second order derivative: e^xsin5x + 10e^xcos5x - 25e^xsin5x

Question:

Find the second order derivatives of x^3.logx

Answer:

Answer: Step 1: Differentiate x^3 with respect to x Answer: 3x^2

Step 2: Differentiate logx with respect to x Answer: 1/x

Step 3: Multiply 3x^2 and 1/x Answer: 3x

Step 4: Differentiate 3x with respect to x Answer: 3

Question:

Find the second order derivatives of e^6xcos3x

Answer:

Answer:

Step 1: Differentiate the expression e^6xcos3x with respect to x.

d/dx (e^6xcos3x) = 6e^6xcos3x + e^6x(-3sin3x)

Step 2: Differentiate the expression again with respect to x.

d/dx (6e^6xcos3x + e^6x(-3sin3x)) = 6(6e^6xcos3x) + e^6x(-3cos3x) + (6e^6x(-3sin3x)) + e^6x(-3(-sin3x))

Step 3: Simplify the expression.

d/dx (6e^6xcos3x + e^6x(-3sin3x)) = 36e^6xcos3x - 3e^6xcos3x - 18e^6xsin3x - 3e^6xsin3x

Step 4: Combine the like terms.

d/dx (6e^6xcos3x + e^6x(-3sin3x)) = 33e^6xcos3x - 21e^6xsin3x

Therefore, the second order derivatives of e^6xcos3x is 33e^6xcos3x - 21e^6xsin3x.

Question:

Find the second order derivatives of x.cosx

Answer:

Answer:

  1. First order derivative: -x.sinx + cosx
  2. Second order derivative: -sinx - x.cosx

Question:

Find the second order derivatives of log(logx)

Answer:

Answer:

Step 1: Use the chain rule to find the first order derivative:

d/dx(log(logx)) = 1/(logx)*(1/x)

Step 2: Use the chain rule again to find the second order derivative:

d2/dx2(log(logx)) = -1/(logx)2*(1/x)2 + 1/(logx)*(-1/x2)

Simplifying:

d2/dx2(log(logx)) = -1/(x2*logx2)

Question:

Find the second order derivatives of x^20

Answer:

  1. First order derivative of x^20 = 20x^19

  2. Second order derivative of x^20 = (20)(19)(x^18)

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