Electricity And Magnetism Grade 10 PDF
Document Details
Uploaded by EntrancingNobility165
null
null
null
Tags
Summary
These notes cover the fundamentals of electricity and magnetism, including definitions, descriptions, and examples. The document also includes a quiz with questions designed to test the student's understanding of the subject.
Full Transcript
# ELECTRICITY AND MAGNETISM ## SCIENCE GRADE 10 - UNIT II - Electricity is produced by vibrating or flowing charges. ## What is a Magnet? - A magnet is a material that produces a magnetic field. ## What Materials are Magnetic? The following elements are magnetic: - **Iron (Fe)** - Atomic N...
# ELECTRICITY AND MAGNETISM ## SCIENCE GRADE 10 - UNIT II - Electricity is produced by vibrating or flowing charges. ## What is a Magnet? - A magnet is a material that produces a magnetic field. ## What Materials are Magnetic? The following elements are magnetic: - **Iron (Fe)** - Atomic Number: 26 - Atomic Mass: 55.85 - **Cobalt (Co)** - Atomic Number: 27 - Atomic Mass: 58.93 - **Nickel (Ni)** - Atomic Number: 28 - Atomic Mass: 58.96 - Many alloys of these metals like steel and alnico are magnetic. ## Magnetism - Magnetism is commonly attributed to ferromagnetism and electromagnetism depending on the moving charges and the material. - Every atom and all moving charges are in constant motion and therefore has a bit of magnetism due to magnetic spins and domains creating a net magnetic field. - **How it's Made - Magnets** - A diagram of an unmagnetized material shows several magnetic domains in random directions, while a magnetized material shows the magnetic domains all aligned in the same direction. - Before magnetization, domains behave randomly, and after magnetization, they align in a single direction. - A magnet has two magnetic poles (north and south seeking poles), and there are magnetic field lines around the magnet. - Magnets exert either a force of repulsion or attraction. - **Attraction:** - N-S - S-N - **Repulsion:** - N-N - S-S - If a force of attraction is possible between an object and a magnet, then the object interacting with the magnet contains a ferromagnetic substance and is considered naturally magnetic. - If a force of repulsion is also possible between an object and a magnet, then the object interacting with the magnet may also be a permanent magnet or a temporarily magnetized ferromagnetic material. - Diagrams show the magnetic field lines of attraction and repulsion. ## Which arrangement of three bar magnets results to an attraction between the first and the second, and a repulsion between the second and the third magnet? - The correct answer is **C.** ## MAGNETIC EFFECT OF A CURRENT - In 1819, Hans Christian Oersted accidentally discovered that when a current was switched on, a compass needle deflected. ## OERSTED'S EXPERIMENT - A diagram shows how the compass needle is deflected when the current is switched on. - This observation fired up tremendous research on electromagnetism. As a result, the effect on the motion of conductors placed within a magnetic field (such as in the operation of electric motors) was also experimented much and paved the way for practical electricity. - Twelve years after this discovery, Michael Faraday ('Fer-ə-dā) conducted his famous induction ring experiment showing that current can be produced by sources of changing magnetic fields. - This is the key principle to practical generation of electricity. - Many of the recording technology are founded entirely or partially on the relationship between electricity and magnetism known as **electromagnetic induction**. - **Electromagnetic induction** is a phenomenon of inducing a voltage in a conductor by changing the magnetic field near the conductor. - If a magnetic field within a closed loop changes in any way, a voltage or electromotive force is induced (produced) in the loop. - A diagram showing the inductive process. ## QUIZ ### ANSWER IN 1/8 SHEET OF PAPER ## TEST I ### Sum it Up Challenge! The process by which the screws become magnets is called **magnetic induction**. This same process is the reason why magnets **attract** non-magnetized magnetic substances such as the screw. The screw becomes **an induced** magnet with the end nearer the magnet having **an opposite** polarity to that of the permanent magnet. Hence attraction happens **after** magnetic induction occurs. ## Which arrangement of three bar magnets results to a repulsion between the first and the second, and an attraction between the second and the third magnet. - The correct answer is **C.** ## TEST II ### SCI. BOOK P 84-87 ## 1. In which case or cases is electric field present? - I. A spark jumping between two nearby rods. - II. A charge that is momentarily at rest. - III. A rotating bar magnet. - The correct answer is **a. I only** ## 2. In which case can a magnetic field be produced? - a. A charged comb. - b. A falling glass rod. - c. A welder's arc flash. - d. A rolling plastic cylinder. - The correct answer is **c. A welder's arc flash.** ## 3. Which device can be used to determine the polarity of an unmarked magnet? - a. a charged glass stirring rod - b. a gold-leaf electroscope - c. a sprinkle of iron filings - d. an improvised compass - The correct answer is **d. an improvised compass** ## 4. How will you describe the magnetic field around a straight current-carrying wire? - The magnetic field is strongest near and around the wire. - The magnetic field consists of straight lines parallel to the wire. - The magnetic field does not vary with the distance from the wire. - The magnetic field gets stronger with increasing distance from the wire - The correct answer is **a. The magnetic field is strongest near and around the wire.** ## 5. Which statement about an electromagnet is TRUE? - The electric field surrounding a battery-powered electromagnet alternates constantly. - The current in the electromagnet coil temporarily magnetizes the iron core. - The electric field strength is inversely proportional to the current. - The magnetic field lines produced are all straight. - The correct answer is **b. The current in the electromagnet coil temporarily magnetizes the iron core.** ## 6. What can be inferred from the alignment of compass needles in the set-up below? - A permanent magnet is nearby. - The power switch was turned off for long. - The current-carrying coil becomes magnetic. - There is a constant and uniform magnetic field around the coil. - The correct answer is **d. There is a constant and uniform magnetic field around the coil.** ## 7. As part of a traffic light system, large loops of wire are buried beneath road intersections. Which of the statements is NOT TRUE about the operation of this traffic light system? - Vehicles driven over the buried coils activate a traffic light sensor. - The conducting loops activate a color-dependent field. - The alternating current sent through the buried coils produce an electromagnetic field in each coil. - A minimum number of vehicles over the coils can trigger the traffic light to change green. - The correct answer is **b. The conducting loops activate a color-dependent field.** ## 8. Complete the following statement: Moving a metallic detector past a 5 peso coin creates a secondary magnetic field that is most similar to that of - a horse shoe magnet - a flat refrigerator magnet - a current-carrying, circular loop - a V-shaped straight wire that carries a current - The correct answer is **c. a current-carrying, circular loop** ## 9. During the Student Technologists and Entrepreneurs of the Philippines (STEP) Competition in Landscaping, a water pond transformer changes 216 V across the primary to 12 V across the secondary. If the secondary coil has 10 turns, how many turns does the primary coil have? - 10 turns - 18 turns - 180 turns - 228 turns - The correct answer is **c. 180 turns** ## 10. What basic principle enables ALL electric motors to operate? - Iron is the only element that is magnetic. - Opposite electric charges attract and like charges repel. - A moving conductor within a magnetic field will experience an electromotive force. - A current-carrying conductor placed within a magnetic field will experience a magnetic force. - The correct answer is **d. A current-carrying conductor placed within a magnetic field will experience a magnetic force.** ## 11. A magnet moves inside a coil. Consider the following factors: - strength of the magnet - number of turns in the coil - speed at which the magnet moves - Which can affect the electromotive force (emf) induced in the coil? - only - only - only - All three factors - The correct answer is **d. All three factors** ## 12. Which statement about transformers is FALSE? - A step-down voltage transformer steps up the current. - Transformers use mutual induction. - Transformers are an application of Faraday's and Lenz's Laws. - A transformer can function with either an alternating current (AC) or a steady direct current (DC). - The correct answer is **d. A transformer can function with either an alternating current (AC) or a steady direct current (DC).** ## 13. What is TRUE about the intercom system that is shown below? - The part A of the intercom system serves as a microphone only, while part C serves as a loudspeaker only. - Either parts A and C of the intercom when switched as such can be used as a microphone or as a loudspeaker. - The microphone part only basically consists of wires, a cone diaphragm, a magnet, and a coil. - The loudspeaker part only basically consists of wires, a cone diaphragm, a magnet, and a coil. - The correct answer is **b. Either parts A and C of the intercom when switched as such can be used as a microphone or as a loudspeaker.** ## 14. What transformation can take place in an improvised generator? - mechanical energy into electrical energy - electrical energy into mechanical energy - alternating current into direct current - direct current into alternating current - The correct answer is **a. mechanical energy into electrical energy** ## 15. A loop of conductor lies flat on a horizontal table. A toy magnet is hanging still over it with the magnet’s north-seeking pole pointing down. What happens next? - The magnet produces a clockwise current in the coil. - The magnet does not produce any current in the coil. - The magnet produces an upward electromagnetic current. - The magnet produces a counterclockwise current in the coil. - The correct answer is **b. The magnet does not produce any current in the coil.** ## ANSWER ### Sum it Up Challenge! The process by which the screws become magnets is called **magnetic induction**. This same process is the reason why magnets **attract** non-magnetized magnetic substances such as the screw. The screw becomes **an induced** magnet with the end nearer the magnet having **an opposite** polarity to that of the permanent magnet. Hence attraction happens **after** magnetic induction occurs.