JAMB Syllabus for Physics 2022/2023 Free PDF Download
– JAMB Syllabus for Physics 2022 –
Are you interested in partaking in the 2022 JAMB examination? Do you want to download the JAMB Syllabus for Physics 2022/2023? If you are, then this article will benefit you a lot.
This is to announce that the examination board just issued the Jamb Physics syllabus 2022/2023, which covers a wide range of themes and crucial issues are out.
In addition, the examination board normally provides the Jamb Physics syllabus 2022/2023, important points, and recommended textbooks to advise you on the specific area to read and prepare ahead of your classmates.
Also, with no JAMB Physics and subject syllabus, it becomes tough to cover all the concepts that you learned in school. However, you should not mess around with the jamb syllabus for Physics and other topics, no matter how smart you are.
The purpose of the Physics syllabus for the Unified Tertiary Matriculation Examination is to prepare candidates for the UTME Board’s examination.
JAMB Syllabus for Physics Objectives
1. Keep their interest in physics alive.
2. Develop a physics-related attitude that promotes the accuracy, precision, and objectivity.
3. Physical phenomena, laws, definitions, concepts, and other theories must all be interpreted.
4. Demonstrate your ability to solve physics problems correctly by applying relevant theories and concepts.
JAMB Syllabus for Physics Benefits
1. Getting the Physics syllabus will assist you to understand the topics for which you must prepare.
2. From each of the topics, you will learn what you are expected to know.
3. The recommended texts section also includes a list of Physics books to read (with titles, authors, and editions).
Jamb Syllabus for Physics 2022
The approved JAMB Physics Syllabus for 2022/2023 is listed below:
1. Measurements and Units
Topics:
1. Length, area and volume: metre rule, vernier callipers micrometre screw-gauge, measuring cylinder
2. Mass
(i) unit of mass
(ii) use of simple beam balance
(iii) concept of beam balance
4. Time
(i) unit of time
(ii) time-measuring devices
(d) fundamental physical quantities
(e) derived physical quantities and their units
(i) combinations of fundamental quantities and determination of their units
5. Dimensions
(i) definition of dimensions
(ii) simple examples
6. Limitations of experimental measurements
(i) accuracy of measuring instruments
(ii) simple estimation of errors.
(iii) significant figures.
(iv) standard form.
7. Measurement, position, distance and displacement
(i) concept of displacement
(ii) distinction between distance and displacement
(iii) concept of position and coordinates
(iv) frame of reference
2. Scalars and Vectors
Topics:
1. Definition of scalar and vector quantities
2. Examples of scalar and vector quantities
3. Relative velocity
4. Resolution of vectors into two perpendicular directions including graphical methods of solution.
3. Motion
Topics:
1. Types of motion: translational, oscillatory, rotational, spin and random
(b) Relative motion
(c) Causes of motion
(d) Types of force
(i) Contact
(ii) Force field
(e) linear motion
5. Equilibrium of Forces
Topics:
(a) Equilibrium of particles:
(i) equilibrium of coplanar forces
(ii) triangles and polygon of forces
(iii) lami’s theorem
(b) Principles of moments:
(i) moment of a force
(ii) simple treatment and moment of a couple (torque)
(iii) applications
(c) Conditions for equilibrium of rigid bodies under the action of parallel and non-parallel forces:
(i) resolution and composition of forces in two perpendicular directions,
(ii) resultant and equilibrant
(d) centre of gravity and stability
(i) stable, unstable and neutral equilibria
6. Work, Energy, and Power
Topics:
(i) definition of work, energy and power
(ii) forms of energy
(vii) conservation of energy
(iv) qualitative treatment between different forms of energy
(viii) interpretation of area under the force-distance curve
7. Friction
Topics:
(i) static and dynamic friction
(ii) coefficient of limiting friction and its determination.
(iii) advantages and disadvantages of friction
(iv) reduction of friction
(v) qualitative treatment of viscosity and terminal velocity.
(vi) stoke’s law.
8. Simple Machines
Topics:
(i) definition of simple machines
(ii) types of machines
(iii) mechanical advantage, velocity ratio and efficiency of machines
9. Elasticity
Topics:
(i) elastic limit, yield point, breaking point, Hooke’s law and young’s modulus
(ii) the spring balance as a device for measuring force
(iii.) Work done per unit volume in springs and elastic strings
(i) work done per unit volume in springs and elastic strings.
10. Pressure
Topics:
(a) Atmospheric pressure:
(i) definition of atmospheric pressure
(ii) units of pressure (s.i) units (pa)
(iii) measurement of pressure
(iv) simple mercury barometer, aneroid barometer and manometer.
(v) variation of pressure with height
(vi) the use of a barometer as an altimeter.
(b) Pressure in liquids:
(i) the relationship between pressure, depth and density (p = ?gh)
(ii) transmission of pressure in liquids (pascal’s principle)
(iii) application
11. Liquids at Rest
Topics:
(i) determination of density of solids and liquids
(ii) definition of relative density
(iii) upthrust on a body immersed in a liquid
(iv) Archimedes principle and the law of floatation and applications, e.g. ships and hydrometers.
12. Temperature and its Measurement
Topics:
(i) concept of temperature
(ii) thermometric properties
(iii) calibration of thermometers
(iv) temperature scales -celsius and kelvin.
(v) types of thermometers
(vi) conversion from one scale of temperature to another
13. Thermal expansion
Topics:
(a) Solids
(i) definition and determination of linear, volume and area expansivities
(ii) effects and applications, e.g. Expansion in building strips and railway lines
(iii) relationship between different expansivities
(b) Liquids
(i) volume expansivity
(ii) real and apparent expansivities
(iii) determination of volume expansivity
(iv) anomalous expansion of water
14. Gas laws
Topics:
(i) boyle’s law (isothermal process)
(ii) charle’s law (isobaric process)
(iii) pressure law (volumetric process
(iv) absolute zero of temperature
(v) general gas equation pv t = constant
(vi) ideal gas equation eg. Pv = nrt
(vii) van der Waal gas
15. Quantity of heat
Topics:
(i) heat as a form of energy
(ii) definition of heat capacity and specific heat capacity of solids and liquids
(iii) determination of heat capacity and specific heat capacity of substances by simple methods e.g method of mixtures and electrical method and newton’s law of cooling
16. Change of State
Topics:
(i) latent heat
(ii) specific latent heats of fusion and vaporization;
(iii) melting, evaporation and boiling
(iv) the influence of pressure and of dissolved substances on boiling and melting points.
(ii) application in appliances
17. Vapours
Topics:
(I) Unsaturated and saturated vapours
(ii) Relationship between saturated vapour pressure (s.v.p) and boiling
(iii) Determination of v.p by barometer tube method
(iv) Formation of dew, mist, fog, and rain
(v) Study of dew point, humidity and relative humidity
(v) Hygrometry; estimation of the humidity of the atmosphere using wet and dry bulb hygrometers.
18. Structure of Matter and Kinetic Theory
Topics:
(I) Molecular nature of matter
(ii) Atoms and molecules
(iii) Molecular theory: explanation of Brownian motion, diffusion, surface tension, capillarity, adhesion, cohesion and angles of contact etc
(iv) Examples and applications.
(v) Kinetic theory
(vi) Assumptions of the kinetic theory
(vii) busing the theory to explain the pressure exerted by gas, Boyle’s law, Charles’s law, melting, boiling, vaporization, change in temperature, evaporation, etc.
Click Here to See All JAMB Syllabus for Physics
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FAQS about Jamb Syllabus for physics 2022
1. What is the JAMB syllabus for Physics?
The jamb syllabus for Physics is mass, heat, energy e.t.c. scroll up to check the full list.
2. Is the jamb 2022 syllabus out?
Yes, it is.
3. How can I study for a jamb?
By following the JAMB syllabus. And reading recommended textbooks.
4. What is the JAMB syllabus for chemistry?
They are air, kinetic theory of matter and gas laws. Visit the jamb website for more information.
5. What are the main topics in Physics for jamb?
They are all main and important topics.
6. How many questions does jamb Physics have?
It has 50 questions.
7. Is the JAMB syllabus real?
Yes, it is.
8. What are the hardest subjects in JAMB?
All are simple if you read very well.
9. Is the JAMB syllabus important?
Yes, it is.
10. Can I pass my exam without this syllabus?
Yes, you can. But it will be difficult to meet the jamb cut off mark.
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