Due to popular demand, we have created 3 NEW worksheets with over 90 questions with answers on 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. Worksheets applicable for students in Year 9 to 12. In hopes of avoiding confusion, these worksheets are new and different from the existing individual worksheets available for sale. These NEW worksheets can be only found in bundles with the title “NEW worksheets” in them. I’ve created these worksheets to supply additional material for existing/new customers that would need a larger question bank as supplementary to the previous worksheets.

Due to popular demand, we have created 4 NEW worksheets with 95 questions with answers on the topic of Electricity related to analysing electric fields and charge flow, 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 (cent/kWh) rates, and the efficiency calculation of electrical devices. Worksheets applicable for students in Year 9 to 12. In hopes of avoiding confusion, these worksheets are new and different from the existing individual worksheets available for sale. These NEW worksheets can be only found in bundles with the title “NEW worksheets” in them. I’ve created these worksheets to supply additional material for existing/new customers that would need a larger question bank as supplementary to the previous worksheets.

2 Worksheets containing 45 Questions with detailed answers and workings include types of radiation (alpha, beta, gamma), radioactive decay equations, the concept of half-life of a radioisotope and calculation of half-life of a radioactive substance, understanding nuclear energy from nuclear fusion and nuclear fission, calculation of mass defect and nuclear energy from nuclear fusion and nuclear fission, brief explanations of the uses of control rods and moderators in a nuclear powerplant, the safety aspects to consider in a nuclear powerplant, the concept of a nuclear chain reaction. Suited for students in Year 9, 10, 11 and 12.

3 Worksheets with over 90 questions provided with detailed answers and workings to act as a comprehensive introduction to quantum physics. Questions are related to the scientists that pioneered quantum theory such as Max Planck, de Broglie and Einstein) as well as the quantum theory of light, the concept of particle wave duality, de Broglie’s wavelength, the use of it in an electron microscope, definition of a photon, photon energy and power, the photoelectric effect, factors affecting photoelectric effect, the threshold frequency, the kinetic energy of photoelectrons, Einstein’s photoelectric equation, the calculation of work function, the kinetic energy and speed of photoelectrons. Suited for students in Year 9, 10, 11 and 12 as an introduction to quantum physics.

This worksheet bundle consists of 4 worksheets totally to 120 questions with answers provided, this comprehensive worksheet bundles includes topics related to Newton’s Universal Law of Gravitation, calculations of gravitational acceleration, centripetal force, Kepler’s Laws, knowledge testing of the Kepler’s 1st and 2nd Law with calculations related to Kepler’s 3rd Law, types of satellites (man-made satellites, natural satellites, geostationary and non geostationary satellites), calculating linear speeds of orbiting bodies, and the calculation of escape velocity of rockets/satellites on a planet. Suitable for students in Year 10, 11 and 12 being introduced to space physics.

2 Worksheets with challenging questions and answers for determining resultant force of non-parallel vector forces and determining forces in equilibrium suited for students in KS4.

2 page worksheet with 11 questions, completed with detailed step by step answer scheme, consisting of questions from linear motion to calculate distance, time, velocity and acceleration. Suited for Year 12 students.

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.

1 Worksheet consisting a combination of questions from TES authors and myself. Worksheet is 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.

2 Worksheets consisting over 30 Questions and answers related to the chapter of waves. Questions include the application of constructive and destructive wave interference, the formation of nodal and antinodal lines from 2 coherent sources such as dippers (water waves), speakers (sound waves) and Young’s double slit experiment (light waves), the application of sound wave reflection (echoes) to estimate distance and depth of oceans and wells, the understanding and knowledge of the electromagnetic spectrum and its applications (radio waves - gamma rays). Worksheets suited for students in KS 4.

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 over 25 questions and answers related to the chapter of Waves. Questions include the understanding of longitudinal and transverse waves, examples of longitudinal and transverse waves, the calculation of the speed of the wave, extracting data such as amplitude, wavelength, period and frequency of a wave from displacement-displacement graphs and displacement-time graphs, understanding the occurrence and the factors affecting the damping and resonance of waves. Suited for students in KS 4.

2 Worksheets consisting of 20 questions and answers related to electrical energy calculations using various formulas to find electrical energy, electrical power, resistance, voltage and current. Questions include the application of circuits (parallel and series) and the advantages of respective circuits, power consumption calculations and determining cost in terms of kWh. Energy conversion is tested as well in terms of converting between electrical energy to thermal energy in electrical appliances. Worksheets suited for students in KS 4.

2 Worksheets consisting of 20 questions and answers related to electromotive force and internal resistance calculation. Application of knowledge of circuits (parallel and series), as well as Ohm’s Law, to determine electromotive force and internal resistance of dry cells. Questions do consist of theoretical analysis by students as well. Suited for students in KS 4.

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.

2 Worksheets consisting of 30 questions and answers related electric field diagrams, experiments on an electric field (candle flame experiment, polystyrene ball experiment), calculations involving the relationship between current, charge and time (I = Q/t), the application of Ohm’s Law (V = IR) and the calculation of material resistance (inclusive of material length, resistivity, cross sectional area). Worksheets suited for students in KS 4.