Jamb Physics Tutorial for Beginners - Education - Nairaland
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| Jamb Physics Tutorial for Beginners by LordeCalifornia: 3:27pm On Nov 02, 2017 |
Hello! I am a Chemical Engineering student, and I love physics.  In this thread, I would be explaining difficult concepts in physics using simple language that everyone would be able to understand. physics may be difficult to understand, but it could be easy too 3 Likes |
| Re: Jamb Physics Tutorial for Beginners by 4kings: 11:43pm On Nov 04, 2017 |
@LordeCalifornia I'm in... |
| Re: Jamb Physics Tutorial for Beginners by Nobody: 10:28am On Nov 05, 2017 |
Let me park my car here. But I love physics, the only science subject I hate is biology. But I'm in...  1 Like |
| Re: Jamb Physics Tutorial for Beginners by pabostt: 10:41am On Nov 05, 2017 |
Nice one op. Physics is very interesting and easy to pass if you can be patient to understand the concept. I have a section on my blog where I have explained topics in Cambridge A level Physics, UTME physics, and O' level Physics Physics for Cambridge A level, UTME, and O'level You can now practice with mini CBT online for JAMB preparation Online CBT for Physics and other subjects |
| Re: Jamb Physics Tutorial for Beginners by pabostt: 10:42am On Nov 05, 2017 |
This is a question on Nuclear Physics A piece of radioactive material contains 1000 atoms. If its half-life is 20 seconds, the time taken for 125 atoms to remain is {UTME 2012} A. 20 seconds B. 40 seconds C. 60 seconds D. 80 seconds Solution N = N0 exp(-ℷt) ℷ = 0.693/T ℷ = 0.693/20 125 = 1000 exp(-0.03465t) 125/1000 = exp(-0.03465t) 1000/125 = exp(0.03465t) 8 = exp(0.03465t) 0.03465t = In 8 0.03465t = 2.0794415 t = 2.0794415 /0.03465 = 60 seconds C is the correct option |
| Re: Jamb Physics Tutorial for Beginners by Nobody: 11:30am On Nov 05, 2017 |
This thread is sexist! |
| Re: Jamb Physics Tutorial for Beginners by Nobody: 11:33am On Nov 05, 2017 |
Fyi0:I thought thesame until I read the post |
| Re: Jamb Physics Tutorial for Beginners by Nobody: 11:46am On Nov 05, 2017 |
Optimist1998:I've read the post and it is still sexist. |
| Re: Jamb Physics Tutorial for Beginners by Nobody: 12:26pm On Nov 05, 2017 |
Fyi0:The heading is off-putting. Lemme summon the Op. Op Come and modify your post. |
| Re: Jamb Physics Tutorial for Beginners by Xteljay(f): 9:20pm On Nov 06, 2017 |
Physics is my best subject so i'm in |
| Re: Jamb Physics Tutorial for Beginners by LordeCalifornia: 11:30pm On Nov 06, 2017 |
My apologies for the delay. My work seems to be taking a consequential part of my time these days. The tutorials would begin as soon as i post the course outline(I'm still compiling it) Physics is fun, and you would be amazed. Welcome @ 4kings Kimberlywest Pabostt Optimist1998 Fyi0 Xteljay 1 Like 1 Share |
| Re: Jamb Physics Tutorial for Beginners by LordeCalifornia: 12:09am On Nov 07, 2017 |
Okay, I was thinking of Developing my own Syllabus, but then, I realised that JAMB's syllabus is well structured and would be good for beginners. So we would be making use of JAMB's syllabus. In case you do not have it, I've listed the topics all out here. 1. Measurements and Units 2. Scalars and Vectors 3. Motion 4. Gravitational Field 5. Equilibrium of Forces 6. Work, Energy and Power 7. Friction 8. Simple Machines 9. Elasticity 10. Pressure 11. Liquids at Rest 12. Temperature and its Measurements 13. Thermal Expansion 14. Gas Laws 15. Quantity of Heat 16. Change of State 17. Vapours 18. Structure of Matter and Kinetic Theory 19. Heat Transfer 20. Waves 21. Propagation of Sound Waves 22. Characteristics of Sound Waves 23. Light Energy 24. Reflection of Light at Plane and Curved Surfaces 25. Refraction of Light 26. Optical Instruments 27. Dispersion of Light 28. Electrostatics 29. Capacitors 30. Electric Cells 31. Current Electricity 32. Electrical Energy and Power 33. Magnets and Magnetic Fields 34. Force on a Current Carrying Conductor 35. Electromagnetic Induction 36. Simple A.C Circuits 37. Conduction of Electricity 38.Elementary Modern Physics 39. Introductory Electronics |
| Re: Jamb Physics Tutorial for Beginners by LordeCalifornia: 12:55am On Nov 07, 2017 |
I have been teaching physics offline for a while now, this would be the first time I would be explaining the concept online. I know it wouldn't be easy. MEASUREMENTS AND UNITS This is the very first and arguably the most important topic in physics, so let's get to know exactly what measurement means. Yes, most of us are already familiar with the term 'Measurement', but what really happens when we take measurements? When you take the measurement of a quantity, you are simply trying to know the size or amount of that quantity. Simple easy! you may now be wondering “Why is this(measurement) necessary in physics?” Well, everything we would do in physics would all have to boil down to measurements. You have to know that as a scientist, the accuracy of your work(s) cannot be over emphasized. Because the life of so many, would be linked directly or indirectly to any invention you come up with. Okay, Let’s consider an example you can relate with, Let's assume you want to cook a soup, would you just turn in your water, salt, pepper, Curry and every other ingredient inside your pot without taking measurements? No! Most times, we gauge (with our eyes ) the amount of ingredients we add to our food so that our food would not be too salty or too peppery or too whatever the case may be. This form of measurement (guaging with eyes) may not too accurate, but at least, we can appreciate the beauty of taking measurements even in the kitchen.Now, that’s just one of the importance of measurements. There are a thousand more. So as a scientist, you must try as much as you can to eliminate errors in your work, because errors, no matter how small may cause major damages in the long run. Let me ask you, What do you think would happen if an aeroplane breaks down in mid flight? Well, Your guess is as good as mine. So measurements must always be taken accurately in physics. Now that you have understood the meaning of measurement and its importance in physics, it would only be normal for you to ask this next question, what exactly do we measure in physics? Okay, okay, Definitely not Maggi, nor salt, nor pepper. What we measure in physics are called quantities. These (quantities) are simply measureable properties of substances. For example, the pot of soup you started cooking earlier on, has so many measurable properties, these properties include; the temperature of the pot, the mass of the pot, the volume of the pot, the area of the pot and so many more properties, so what the early physicists did was to group all these properties and give them a general name called Quantities , or more approprietly, physical quantities . You see? It's just as easy as that. There's really no magic there, So, when you hear that proud Science student in your class talk and boast about "physical quantities", just know that he is only talking about the properties that can be measured and nothing else. I would sure give you time to think about all I have been saying, but before then, just one more, It would be nice to let you know that physical quantities may be classified into two categories, These are the fundamental quantities and the derived quantities. Yes, just two. Fundamental and derived. Let's look at what they are Fundamental quantities: These are simply physical quantites which do not depend on any other quantity. What this means is that, these are quantities that we can directly measure and get their values direcrly without having to measure any other quantity. Take a look at the flow diagram below, study it and understand how if flows. Pretty easy! Now, do a little research, what are Derived Quantities? 3 Likes
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| Re: Jamb Physics Tutorial for Beginners by Nobody: 2:39am On Nov 07, 2017 |
Thank you so much. No knowledge is wasted and the way you explain things is just too awesome. |
| Re: Jamb Physics Tutorial for Beginners by toyhin123(f): 4:33am On Nov 07, 2017 |
Thanks Lordecalifornia, I am in on this nd I love d way u explain things |
| Re: Jamb Physics Tutorial for Beginners by pabostt: 7:58am On Nov 07, 2017 |
Nice one op Derived quantities are quantities that depend on the fundamental quantities For example, Volume= length x length x length Length is a fundamental quantity with S.I base Unit of m i.e volume = m x m x m = m3 Velocity = displacement/ time displacement is a fundamental quantity and the S.I base unit = m time is a fundamental quantity and the S.I base unit = second (s) i.e velocity = m/s = ms-1 other examples are force, area, speed, acceleration, electric field strength, charge, pressure, density, etc. |
| Re: Jamb Physics Tutorial for Beginners by MichaelBlake40: 1:42pm On Nov 07, 2017 |
KimberlyWest:Eh en iz that so? |
| Re: Jamb Physics Tutorial for Beginners by LordeCalifornia: 5:28pm On Nov 07, 2017 |
nice one pabostt Derived quantities are physical quantities which depend on fundamental quantities. What this means is that derived quantities cannot stand on their own. They directly depend on other quantities. Now that's clear. let us now list some examples of fundamental and derived quantities. FUNDAMENTAL QUANTITIES Mass Electric Current Time Temperature Amount of a substance length Luminous Intensity Note: For jambites, a quick way to remember all the fundamental quantities is to use this simple mnemonic "M E T² A L² Where; M= mass E= Electric Current T= Time T= Temperature A= Amount of a Substance L= Length L=Luminous intensity. DERIVED QUANTITIES Now, due to the fact that all derived quantities are gotten from the aforementioned fundamental quantities, a little permutation would show you that the number of derived quantities we can have is far greater than the number of fundamental quantities we have. So I would just give a little Volume Area Pressure Force Velocity Acceleration Etc Now, after measuring these quantities, how do we record them so as not to mix them up? Let's say we measure the length of a car as 100, it's temperature is 100 and it's velocity as 100. Now, these values are very similar, so How do we take down these measurements without mixing things up? For sure, it would be difficult to do so. But don't worry, physicists have thought about this and have come up with a solution to prevent us from getting confused when recording our results. The brilliant solition is the introduction of " units". With units, we can record a million measured values without actually confusing ourselves. Units in physics are just like surnames. They help us to identify measured values. So writing down values without including their units is just like registering for jamb without including your surname. It would be diabolical Some quantities and their units are listed below, do well to understand them. NOTE: You can multiply two "different" units, but never add them. You can divide two "different" units, but never subtract them. You can perform the basic four mathematical operations on "similar" units. 6 Likes
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| Re: Jamb Physics Tutorial for Beginners by Nobody: 8:27pm On Nov 07, 2017 |
Your clever approach to the explanations made by mind glued to the texts, as tho I was reading a novel. I commend you. |
| Re: Jamb Physics Tutorial for Beginners by LordeCalifornia: 9:26am On Nov 08, 2017 |
Victurh: |
| Re: Jamb Physics Tutorial for Beginners by Xteljay(f): 8:28pm On Nov 08, 2017 |
God bless u 4 wat u are doin |
| Re: Jamb Physics Tutorial for Beginners by LordeCalifornia: 8:32pm On Nov 08, 2017 |
Xteljay:Thanks, Xteljay. |
| Re: Jamb Physics Tutorial for Beginners by Xteljay(f): 10:11am On Nov 09, 2017 |
LordeCalifornia:i also love the way the u explain the lesson it making me understand it more |
| Re: Jamb Physics Tutorial for Beginners by LordeCalifornia: 4:59pm On Nov 16, 2017 |
Too much work on my hands, I'd update this thread when I get a little space. |
| Re: Jamb Physics Tutorial for Beginners by Nobody: 10:22pm On Nov 21, 2017 |
I like this. I hope I can contribute to this thread too? Physics was and still is something I love. 1 Like |
| Re: Jamb Physics Tutorial for Beginners by LordeCalifornia: 11:43pm On Dec 11, 2017 |
AnonyNymous:yes yes you can you can continue from where I stopped or pick a topic you like and treat it..... |
| Re: Jamb Physics Tutorial for Beginners by LordeCalifornia: 11:49pm On Dec 11, 2017 |
sorry guys. my school has resumed. Updating this thread wouldn't be easy as school is already in session. anyone good knowledge of physics can continue from where I stopped. |
| Re: Jamb Physics Tutorial for Beginners by LordeCalifornia: 4:12pm On Nov 13, 2018 |
it's been a while here, wow! how time flies  I trust the Jambites we had are now in their first year. Well, I have small time in my hands, maybe I should update this thread for future Jambites. |
| Re: Jamb Physics Tutorial for Beginners by LordeCalifornia: 4:32pm On Nov 13, 2018 |
Okay, today, let's look at DIMENSIONS DIMENSIONS As humans, we have beautiful and handsome faces, some have very nice and curvy parts . But deep below the skins covering our bodies lies some form of skeletal framework or structures holding and keeping our systems in place and also providing beautiful shapes to out bodies. these structures are known as skeletons.I know you're wondering and asking yourself, what's the correlation between skeletons and physics well, the illustration above perfectly explains DIMENSIONS in physics. In physics, every unit has a dimension, these units can be taken as the skin of the quantities they represent just like in the illustration above. and when these skins are ripped apart, one would discover that these skins or units as the case may be, have skeletal structures holding the units in place. These skeletal structures are known as DIMENSIONS. Hence, dimensions are the skeletons of units There are six fundamental dimensions in physics, these 6 dimensions can be structured together in different ways to build whatsoever unit in physics. Remember, they are the bones or skeletons of units. THE SIX FUNDAMENTAL DIMENSIONS ARE 1. Mass, represented as M 2. Length, represented as L 3. Time, represented as t 4. Temperature, represented as T 5. Current, represented as A 6. Luminous intensity, represented as C Let us see how they work. Example One find the dimension of velocity. SOLUTION The first thing to do us to get the unit of velocity. and its unit us given as ---> m/s (Note: this is its unit, not it's dimension) from the unit above; 'm' stands for meter which is the unit of length and 's' stands for seconds which is the unit of time hence, Velocity = length/time From the six dimensions given above; dimension for length is L dimension for time is t hence the dimension of velocity is L/t  Example Two what is the dimension for force? SOLUTION The unit of force is kgm/s^2 where: kg stands for kilogram which is the unit for mass and the dimension for mass is M. m stands for meter which is the unit for length and the dimension for length is L. s stands for seconds which is the unit for time and the dimension for time is t. hence, the dimension of force is ML/t^2. You can attempt other examples in your textbook, and when you do that, if you encounter difficulties, do not hesitate to ask me. Our next topic would be Scalars and Vectors, but maybe before then, I would teach us how to take readings on vernier calipers and micrometer screw Guages (it's a requirement for UTME) Do have a nice day  |
| Re: Jamb Physics Tutorial for Beginners by Emdee590(m): 3:09pm On Feb 06, 2019 |
lets resurrect this thread please |
| Re: Jamb Physics Tutorial for Beginners by TheRealOwner(m): 3:46am On Jun 16, 2021 |
Emdee590:Hm |
| Re: Jamb Physics Tutorial for Beginners by olamoses75(m): 4:45pm On Jun 16, 2021 |
This could have been one of the best physics thread on nairaland |
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