Exam Revision Video & Notes for Junior & Leaving Cert
Exam:
Subject:
Topics for Applied Maths (Higher):
Kevin Conliffe
Video eLesson (45min):
Exam Questions & Answers (21min):
(2352 views)
Q1 - Linear Motion Part I [HD]
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This Video Learning Pack looks at an introduction to EQUATIONS OF MOTION for horizontal and vertical displacement.
The use of VELOCITY/TIME GRAPHS to solve displacement problems.
Equations used for NEGATIVE DISPLACEMENT.
Equations for COMPARING DISPLACEMENTS of TWO BODIES travelling in the same line.
Equations applied to the motion of a body taken in SUCCESSIVE STAGES.
Exam Model Answers are also included.
Lesson Sample :: Exam Question Sample
This Video Learning Pack looks at an introduction to EQUATIONS OF MOTION for horizontal and vertical displacement.
The use of VELOCITY/TIME GRAPHS to solve displacement problems.
Equations used for NEGATIVE DISPLACEMENT.
Equations for COMPARING DISPLACEMENTS of TWO BODIES travelling in the same line.
Equations applied to the motion of a body taken in SUCCESSIVE STAGES.
Exam Model Answers are also included.
Kevin Conliffe
Video eLesson (42min):
Exam Questions & Answers (19min):
(913 views)
Q1 - Linear Motion Part II [HD]
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This Video Learning Pack covers the more difficult problems of linear motion.
1. Relative Motion applied to linear motion problems.
2. Calculus applied to linear motion problems.
3. The Calculus "Cat and Mouse" question.
4. Forces and linear motion.
Exam model answers are also included.
Lesson Sample :: Exam Question Sample
This Video Learning Pack covers the more difficult problems of linear motion.
1. Relative Motion applied to linear motion problems.
2. Calculus applied to linear motion problems.
3. The Calculus "Cat and Mouse" question.
4. Forces and linear motion.
Exam model answers are also included.
Kevin Conliffe
Video eLesson (43min):
Exam Questions & Answers (20min):
(901 views)
Q10 - Differential Equations Part I
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This Video Learning Pack looks at:-
1. Introduction - What are Differential Equations.
2. The rules of Logarithms.
3. Use of Table Book, page 41.
4. Solving equations by Inspection.
5. Solving equations by separating the variables.
6. The Terminal Velocity Equation.
Exam Model Answers are also included.
This Video Learning Pack looks at:-
1. Introduction - What are Differential Equations.
2. The rules of Logarithms.
3. Use of Table Book, page 41.
4. Solving equations by Inspection.
5. Solving equations by separating the variables.
6. The Terminal Velocity Equation.
Exam Model Answers are also included.
Kevin Conliffe
Video eLesson (43min):
- View Contents View Contents
- 00:50 introductionsegment.0.50.221.27.1.html
- 04:40 variable forcessegment.0.280.221.27.1.html
- 11:07 acceleration - timesegment.0.667.221.27.1.html
- 14:37 acceleration - displacementsegment.0.877.221.27.1.html
- 17:53 nominated resistive forcessegment.0.1073.221.27.1.html
- 30:17 tractive forces and powersegment.0.1817.221.27.1.html
- 38:25 formula - accelerationsegment.0.2305.221.27.1.html
1. Acceleration as a function of time.
2. Acceleration as a function of displacement.
3. Problems involving air resistance.
4. Problems involving force and power.
5. Deriving a formula for acceleration.
Exam Model Answers are also included.
Kevin Conliffe
Video eLesson (15min):
Exam Questions & Answers (24min):
(933 views)
Q3 - Projectiles Part I [HD]
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This part, (a) of question three, is the most popular question for students
1. Introduction to projectiles fired on a
horizontal plane.
2. Basic equations of motion
3. Initial speed and angle of projection
formulae.
4. Negative displacement problems.
5. The target question solved by the
equation of Parabola.
Exam Model Answers are also examined.
Lesson Sample :: Exam Question Sample
This part, (a) of question three, is the most popular question for students
1. Introduction to projectiles fired on a
horizontal plane.
2. Basic equations of motion
3. Initial speed and angle of projection
formulae.
4. Negative displacement problems.
5. The target question solved by the
equation of Parabola.
Exam Model Answers are also examined.
Kevin Conliffe
Video eLesson (52min):
Exam Questions & Answers (22min):
(521 views)
Q3 - Projectiles Part II [HD]
View Topic »
This Video Learning Pack includes:-
1. Introduction to projectiles on an
inclined plane.
2. Equations of motion.
3. Formula for maximum range on the
plane.
4. Rules for the landing of the projectile
on the plane.
5. Consideration of special situations.
Exam Model Answers are also included.
Lesson Sample :: Exam Question Sample
This Video Learning Pack includes:-
1. Introduction to projectiles on an
inclined plane.
2. Equations of motion.
3. Formula for maximum range on the
plane.
4. Rules for the landing of the projectile
on the plane.
5. Consideration of special situations.
Exam Model Answers are also included.
Colin Mulligan
Video eLesson (31min):
Exam Questions & Answers (32min):
(769 views)
Q4 - Newtons Laws Of Motion - Part I [HD]
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This Video Learning Pack deals with the motion of single particles under the influences of forces and also connected particles both on the horizontal and on an inclined plane. It includes examples involving friction, pulleys etc.
Exam model answers are also included.
Lesson Sample :: Exam Question Sample
This Video Learning Pack deals with the motion of single particles under the influences of forces and also connected particles both on the horizontal and on an inclined plane. It includes examples involving friction, pulleys etc.
Exam model answers are also included.
Colin Mulligan
Video eLesson (10min):
- View Contents View Contents
- 00:03 more difficult examplessegment.0.3.209.27.1.html
- 00:29 example 1segment.0.29.209.27.1.html
- 12:24 accelerationssegment.0.744.209.27.1.html
- 15:28 example 2segment.0.928.209.27.1.html
- 26:53 example 3segment.0.1613.209.27.1.html
- 35:05 forces on particle asegment.0.2105.209.27.1.html
- 37:01 wedgessegment.0.2221.209.27.1.html
- 37:24 example 4segment.0.2244.209.27.1.html
- 53:49 example 5segment.0.3229.209.27.1.html
Kevin Conliffe
Video eLesson (58min):
- View Contents View Contents
- 01:11 momentum, impulsesegment.0.71.210.27.1.html
- 09:50 conservation - linear momentumsegment.0.590.210.27.1.html
- 11:19 collisionsegment.0.679.210.27.1.html
- 22:23 newtons law - restitutionsegment.0.1343.210.27.1.html
- 29:52 direct impact - smooth spheressegment.0.1792.210.27.1.html
- 41:58 multiple direct impactssegment.0.2518.210.27.1.html
1. Introduction, Momentum, Impulse.
2. Principle of conservation of linear
momentum applied to collisions.
3. Law of restitution applied to
collisions.
4. Direct impact of smooth spheres.
5. Multiple direct impacts.
6. Conservation of energy and momentum
applied to a system.
Exam Model Answers are also examined.
Kevin Conliffe
Video eLesson (35min):
- View Contents View Contents
- 00:23 question 5 bsegment.0.23.211.27.1.html
- 02:43 indirect impact on a fixed smooth planesegment.0.163.211.27.1.html
- 13:03 indirect collisionsbetween smooth speressegment.0.783.211.27.1.html
- 14:08 laws and rules applicable to the situationsegment.0.848.211.27.1.html
- 20:43 angle of approach and departuresegment.0.1243.211.27.1.html
- 27:09 comparison between slope of initial final velocitysegment.0.1629.211.27.1.html
Introduction - Comparison to direct collisons.
Indirect impact on a fixed smooth plane.
Laws and rules applicable to indirect collison of smooth spheres.
Resolving vectors revision.
Slope of a velocity before and after a collison.
Exam Model Answers are also included.
Kevin Conliffe
Video eLesson (56min):
- View Contents View Contents
- 01:07 introduction to motion in a horizontal circlesegment.0.67.212.27.1.html
- 01:54 the same principal applies to:segment.0.114.212.27.1.html
- 04:17 formulae of circular motionsegment.0.257.212.27.1.html
- 15:10 the conical pendulumsegment.0.910.212.27.1.html
- 22:41 motion in a vertical circlesegment.0.1361.212.27.1.html
- 26:04 can the cord become slacksegment.0.1564.212.27.1.html
- 30:23 problem solving methods for vert. circ. motionsegment.0.1823.212.27.1.html
- 31:23 a bead threaded on a wiresegment.0.1883.212.27.1.html
- 39:05 particle moving on outside of smooth circ. surfacesegment.0.2345.212.27.1.html
- 47:55 force diagrams for special situationssegment.0.2875.212.27.1.html
1. Introduction to circular motion.
2. Formulae of circular motion.
3. Horizontal circular motion on a
turntable.
4. The conical pendulum.
5. Vertical circular motion.
6. A particle falling off a sphere.
7. Force diagrams for special situations.
Kevin Conliffe
Video eLesson (58min):
- View Contents View Contents
- 00:16 introductionsegment.0.16.213.27.1.html
- 03:06 definition and basic equationssegment.0.186.213.27.1.html
- 05:49 associated circular motionsegment.0.349.213.27.1.html
- 10:11 equations of shmsegment.0.611.213.27.1.html
- 26:49 the simple pendulumsegment.0.1609.213.27.1.html
- 28:03 hookes lawsegment.0.1683.213.27.1.html
- 40:42 forces causing shmsegment.0.2442.213.27.1.html
- 45:56 equation of motionsegment.0.2756.213.27.1.html
- 53:46 the tide questionsegment.0.3226.213.27.1.html
1. Introduction and examples of S.H.M.
2. Associated Circular Motion.
3. Basic equations of S.H.M.
4. The Simple Pendulum.
5. Hookes Law.
6. Forces causing S.H.M.
7. Variable force in an elastic string.
8. The Tide question.
Exam Model Answers are also included