This free worksheet sample is an introductory of the questions contained in the 6 worksheets available for purchase at a cost as low as £1 per worksheet! All worksheets suited for students in KS4.

1 Worksheet consisting a combination of questions from TES authors and myself. Worksheet is suited for students in KS 4.

This free worksheet sample provides a sample of the questions included in the 7 worksheets up for purchase related to the fundamental syllabuses of light! Suited for students in KS4.

Complete Term 1 Test for IGCSE Physics Students in Year 10 consisting of 33 questions (20 Objectives, 13 Subjectives) consisting of questions related to chapter 1 (base and derived quantities, the usage of a micrometer screw gauge, and prefixes) and chapter 2 (motion graphs, ticker tape timer, acceleration, velocity, displacement, time, forces, inertia, vectors and momentum). Suited for students in KS4.

3 Worksheets consisting of over 40 challenging questions and answers related to the application of Ohm’s Law in Parallel and Series Circuits, most questions contain a combination of series and parallel circuits to ensure a wholesome understanding of circuits, the application of knowledge of parallel and series circuits to calculate potential difference, current and resistance, bonus questions include calculating material resistance using material resistivity, length and cross sectional area. Suited for students in KS4.

11 Questions to test on basic understanding of images formed in convex and concave mirrors. Suited for students in KS4.

2 Worksheets consisting of over 20 questions and answers related to the understanding of electromagnetic induction using Faraday’s Law and Lenz’s Law, the application and working principles of the direct current and alternative current generators. Bonus questions were given related to effects of a magnetic field in a current carrying conductor and electric direct current motors. Suited for students in KS 4.

3 Sets of Worksheets to consisting of Displacement-time graph questions and Velocity-time graph questions aimed for students currently in KS4.

2 Worksheets consisting over 30 questions and answers related to the phenomenon of waves. Questions include the reflection of water waves, refraction of water waves, refraction of water waves across various shapes (trapezium base, convex base, concave base, square base), refraction in nature ( formation of waves approaching shores and bays), the occurrence of diffraction of water waves (across a small gap or an obstacle), factors affecting diffraction of waves (aperture and wavelengths), refraction of light waves (single slit experiment of monochromatic light), the application of diffraction in ports and harbours to reduce incoming wave size. Worksheets suited for students in KS 4.

2 Worksheets consisting of 30 various questions with answers to test student understanding of relationship between varying densities, solid pressure and liquid pressure. Suited for students in KS4.

3 Worksheets consisting of over 30 questions related to calculations and understanding of turn ratio, step up and step down voltages of transformers, the presence of eddy current, calculation of transformer efficiency, and application of knowledge of transformers (turns ratio, material of core, material of coil, shape of core) based on specific situations and usage. Suited for students in KS 4.

1 Classroom Presentation Pack consisting of 65 slides of the topic electromagnetism inclusive of chapters related to analysing the magnetic effect of a current-carrying conductor and solenoids, the factors affecting electromagnets, application of the Right Hand Grip Rule, understanding the force on a current-carrying conductor in a magnetic field (the concept of the catapult effect), the applications of electromagnetism in an electric D.C. motor (Using Fleming’s Left Hand Rule), analysing electromagnetic induction, Faraday’s law and Lenz’s law, the application of electromagnetism in an electric A.C and D.C. generators (Using Fleming’s Right Hand Rule), analysing and studying transformers (Step Up and Step Down Transformers), and understanding the generation and transmission of electricity using transformers and generators. Slides are applicable for a minimum of 5-6 consecutive lessons. Suited for students in KS 4.

A classroom lesson presentation pack consisting of 67 slides related to waves including characteristics and classifications of longitudinal and transverse waves, understanding the relationship between wavelength, frequency, period and velocity of waves, understanding the occurrence of resonance and damping of waves, understanding the wave phenomenon and factors affecting reflection, refraction and diffraction of various types of waves (water waves, sound waves and light waves), understanding the concept of destructive and constructive interference, the formation of nodal and antinodal lines due to interference from two coherent sources such as dippers (for water waves), speakers (for sound waves) and Young’s double slit experiment of monochromatic light (for light waves), the application of echoes in estimation of distance and depth, understanding the electromagnetic spectrum (from radio waves to gamma rays) and their applications in daily life. Content designed for 5-6 consecutive lessons. Suited for students in KS 4.

A Presentation Pack consisting of 51 slides which includes chapters related to the working principle and components of a cathode ray oscilloscope, understanding the concept of semiconductors, the working working principle and composition of diodes, the usage of a diode as a half wave and full wave rectifier, the understanding of transistors (p-n-p transistors & n-p-n transistors), functions and applications of transistors, and lastly, understanding the fundamentals of logic gates with basic logic gates (NOT, AND, OR, NOR, NAND). This presentation pack is designed for a 5-6 consecutive lessons. Suitable for students in KS4,

1 Presentation Pack consisting of 37 slides, the contents include types of radiation (alpha, beta, gamma), their characteristics (penetrating power, ionising strength, mass, behavious in a magnetic and electric field), detailed understanding of equipment used to measure radiation (cloud chamber, spark counter, Geiger-Muller Tube, gold leaf electroscope), the concept of half-life of a radioisotope and calculation of half-life of a radioactive substance, applications of radioisotopes in medicine, industry and agriculture, understanding nuclear energy from nuclear fusion and nuclear fission, calculation of mass defect and nuclear energy from nuclear fusion and nuclear fision, brief explanations of the advantages and disadvantages of nuclear energy. Suited for students in KS4. Suited for classroom use of up to 5-6 consecutive lessons.

A classroom lesson presentation pack consisting of 55 slides includes chapters related to analysing electric fields and charge flow, the usage of a Van der Graaf generator, analysing the relationship between electric current and potential difference using Ohm’s Law, material resistance calculation using material resistivity, length and cross sectional area, extensive analysis of potential difference, current and resistance in series, parallel and combined circuits, analysing electromotive force and internal resistance of dry cells in various arrangement (dry cell in series and parallel arrangements), analysing electrical energy and electrical power calculations and equations, fundamental calculation of cost of energy consumption using (pence/kWh) rates, and the efficiency calculation of electrical devices. This presentation pack is designed for up to 5-6 consecutive lessons. Suited for students in KS 4.

Physics Assessment sheet for GCSE students in KS4. Questions include chapters from determining distance vs displacement, calculating velocity and acceleration of objects in motion, free falling object and acceleration due to Earth's gravity, describing and calculating velocity from a ticker-tape, extracting information and calculation based on velocity-time graphs, types of collision and the principle of conservation of momentum, impulse, calculating net and resultant forces. Assessment suited for students in KS4.

Ticker tape worksheet consisting of calculations of distance, velocity, time and acceleration as well as describing motion of moving object using ticker tape measurements.

This presentation pack consist of 125 slides abundant with pictures, equations, examples and exercises to ensure a holistic understanding of motion, force, momentum, energy, power and springs! This complete set includes calculations of motion (velocity and acceleration), calculations of ticker tape measurements, describing and understanding motion graphs, Newton’s 3 Laws, Inertia, Momentum, Action and Reaction, Impulse, Impulsive Force, Gravity, Pulley Systems, Tension, Vectors and Scalars, Balanced and Unbalanced Forces, Resultant Force, Forces in Equilibrium, Forces on an Inclined Plane, Frictional Force, Work Done, Principle of Conservation of Energy, Kinetic Energy, Gravitational Potential Energy, Power, Elastic Potential Energy, Hooke’s Law, Parallel and Series Spring Arrangement. This presentation pack consist enough material to conduct a minimum of 15-18 lessons. Most suited for students in KS4.

1 Presentation Pack consisting of 39 slides to provide a holistic understanding of the chapter of heat. This presentation slide includes chapters related to : Thermal equilibrium, calibration of a thermometer, factors and working principle of a thermometer, specific heat capacity, heat capacity, calculations and formula to calculate heat energy, conversion of heat energy from various energy sources (kinetic, gravitational potential and electrical), the uses and applications of specific heat capacities, specific latent heat, calculation and formula to calculate latent heat energy, changing of phases of matter, gas laws (Boyle’s Law, Charle’s Law, Pressure Law), working principle of each law including a graph and an experimental study of each law, and application of the gas laws. This presentation pack is designed for a 5-6 consecutive lessons. Suited for students in KS4.