This exam covers the following topics, EM waves, Sound waves, and calculations associated with them; Radiation and Nuclear energy.
The exam consists of twelve questions with one hundred marks allocated to them.
A full mark scheme is included. The exam is in WORD mode for easy choosing of appropriate questions.
This exam covers the topic of pressure. With questions related to classic pressure experiments and calculations of pressure. The questions vary in ability and style.
Sixty marks are allocated over the eight questions.
I have left the exam in WORD mode for easy manipulation.
This exam covers the topics of motion, acceleration, acceleration due to gravity and Kinetics.
The exam has one hundred marks allocated to it spread over twenty two questions.
The questions vary in style and ability.
A full mark scheme is included.
This assessment booklet covers the topic of measuring magnetic fields. Questions are also related to shapes of magnetic fields and the interaction of bar magnets. An experiment is explained, and questions asked regarding the experimental procedure and the theory behind it.
The assessment is allocated forty marks spread over two sections.
The questions vary in ability level and style.
A full mark scheme is included.
This assessment booklet covers the topic of calculating resistance in a wire. An experiment is explained, and questions asked regarding the experimental procedure and the theory behind it.
The assessment is allocated forty marks spread over two sections.
The questions vary in ability level and style.
A full mark scheme is included.
This assessment booklet covers the topic of conservation of momentum. An experiment is explained and questions asked regarding the experimental procedure and the theory behind it.
The assessment is allocated forty marks spread over two sections.
The questions vary in ability level and style.
A full mark scheme is included.
This test covers the topics of acceleration and mechanical energy.
The test has sixty marks allocated to it over ten questions.
Questions vary in style and ability level.
A full mark scheme is also included.
AN EXAMINATION OF HOW TO CALCULATE THE FORCES ACTING ON A SLOPE. THIS INCLUDES POTENTIAL AND KINETIC ENERGY FOUND ACTING ON AN OBJECT WHILST ON A SLOPE.
THIS LESSON BRINGS TOGETHER THE IDEA OF HOW WEIGHT, MASS AND GRAVITY ACT ON AN OBJECT WHILST ON AN INCLINE. IT ALSO INCLUDES THE IDEA OF ANGLE OF INCLINATION AND FRICTION CO EFFICIENTS.
a lesson where the idea of calculating frictional force is introduced and explained by the use of simple but effective questioning. Examples of exam style questions are also included.
The lesson will showcase the concept of Root mean Square. The calculation of RMS is investigated and several examples are shown. The definition of RMS is also looked at from an exam question point of view.
A lesson that covers the conservation of momentum. This will include how to identify correct SUVAT equations to use. The Law of Conservation of Momentum will also be looked at with example questions.
This lesson looks at the influence outside factors have on the motion of an object. Including calculating resultant forces and its equations. The idea of how friction affects motion and its relationship with Newtons second Law of motion.
This lesson will cover the classic questions and ideas surrounding the term Work done. This will include the breakdown and analysis of how to answer exam style questions on the work done concept.
This lessons covers the idea of resistance in a circuit is measured. The equations are explained clearly and step by step so students understand what is required from them in exams.
This test of fifty marks is aimed for 11-14 age bracket science students. It comprises a selection of differing questions that are related to forces, circuits and circuit measurements.
A one hundred mark exam covering the basic ideas of motion, electric circuit and forces. The questions are geared towards the equations used in these topics and pupils will have to calculate many of the answers.
Questions are leveled at age range 14-16.