Zenler Player
Your course is loading. Hang tight.
MASTER DIFFERENTIAL CALCULUS
Back to curriculum
0% Complete
0% Complete
0.WHY DIFFERENTIATION
1.GRADIENT OF A CURVE
2.DIFFERENTIATING POWER FUNCTIONS
3.DIFFERENTIATING COMPOSITE FUNCTIONS
4.DIFFERENTIATING TRIG FUNCTIONS
5.DIFFERENTIATING EXP AND LOG FUNCTIONS
6.DIFFERENTIATING RECIPROCAL AND INVERSE FUNCTIONS
7.PRODUCT AND QUOTIENT RULE
8.DIFFERENTIATING PARAMETRIC FUNCTIONS
0.WHY USE DERIVATIVES
1.STATIONARY POINTS
2.TANGENTS AND NORMALS
3.RATES OF CHANGE
4.RELATED RATES OF CHANGE
5.OPTIMISATION
6.IMPLICIT DIFFERENTIATION
7.KINEMATICS
0.WHY ADVANCED CONCEPTS
1.CONTINUITY AND DIFFERENTIABILITY
2. DIFFERENTIATION BY FIRST PRINCIPLES
3.LIMITS AND L-HOPITAL RULE
4.MEAN VALUE THEOREM
5.GRADIENT FUNCTION
6.INFLECTION AND CONCAVITY
7.FEATURES OF A GRAPH
SECTION 1: DIFFERENTIATION
0.WHY DIFFERENTIATION
Preview
1.GRADIENT OF A CURVE
Preview
2.DIFFERENTIATING POWER FUNCTIONS
3.DIFFERENTIATING COMPOSITE FUNCTIONS
4.DIFFERENTIATING TRIG FUNCTIONS
5.DIFFERENTIATING EXP AND LOG FUNCTIONS
6.DIFFERENTIATING RECIPROCAL AND INVERSE FUNCTIONS
7.PRODUCT AND QUOTIENT RULE
8.DIFFERENTIATING PARAMETRIC FUNCTIONS
SECTION 2: USING DERIVATIVES
0.WHY USE DERIVATIVES
Preview
1.STATIONARY POINTS
2.TANGENTS AND NORMALS
3.RATES OF CHANGE
4.RELATED RATES OF CHANGE
5.OPTIMISATION
6.IMPLICIT DIFFERENTIATION
7.KINEMATICS
SECTION 3: ADVANCED CONCEPTS
0.WHY ADVANCED CONCEPTS
Preview
1.CONTINUITY AND DIFFERENTIABILITY
2. DIFFERENTIATION BY FIRST PRINCIPLES
3.LIMITS AND L-HOPITAL RULE
4.MEAN VALUE THEOREM
5.GRADIENT FUNCTION
6.INFLECTION AND CONCAVITY
7.FEATURES OF A GRAPH
×
This is an unpublished lesson. This lesson will not be shown for students unless you set it as Public.
Back to Dashboard
No contents are available in this lesson!
No lessons available !
Back to Dashboard
Lesson contents locked
Enroll to unlock this lesson.
Enroll to unlock
Next Lesson