FDP101X October 2018 DAY 2: ACTIVITY 2 DAY 2: ACTIVITY 2 PEER - - PowerPoint PPT Presentation

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FDP101X October 2018 DAY 2: ACTIVITY 2 DAY 2: ACTIVITY 2 PEER ASSESSMENT ACTIVITY BY DR. SACHIN H. DHANANI RC1092 K.I.T.S COLLEGE OF ENGINEERING Introduction To Ordinary Differential Equations by Dr. Sanjeev Kumar View the the following

SLIDE 1

DAY 2: ACTIVITY 2

FDP101X October 2018

DAY 2: ACTIVITY 2 PEER ASSESSMENT ACTIVITY BY

DR. SACHIN H. DHANANI

RC1092 K.I.T.’S COLLEGE OF ENGINEERING

SLIDE 2

Introduction To Ordinary Differential Equations by Dr. Sanjeev Kumar

View the the following link and answer the Reflection Spot Questions and perform the Learn By Activity (LBD) https://www.youtube.com/watch?v=Pq1Wb4sNSds&feature=youtu.be

SLIDE 3

Reflection Spot

Why we need the numerical method to solve ordinary method to solve ordinary differential equation.

SLIDE 4

Learning by Doing Activities

LBD1: The signature of the O.D.E y’ + Py = Qy^n , n ≠ 1

1. Bernoulli’s

equations

2. Gaussian equations
3. Bessel’s equations

LBD2:

The required solution of sec^2 x tan y dx + sec^2 y tan x dy = 0 is,

1. tanx tany=k
2. tanx+tany=k
3. Tanx-tany=k
4. tanx/tany=k
3. Bessel’s equations
4. Legendre‟s equations

Constructive Feedback :

Ans. a) Bernoulli‟s equations

By Definition

4. tanx/tany=k

Constructive Feedback :

Ans. a) tanx.tany=k

The above example is of the type variable separable. Hence the Solution.