Class XII: Learning Objectives based on Bloom's Taxonomy
- Ranee Vaid
- Apr 11
- 4 min read
Updated: Apr 13
LEARNING OBJECTIVES BASED ON BLOOM'S TAXONOMY
CLASS : XII
CBSE BOARD
Chapter – 1 : Electric Charges and Field
Learners would be able to
Characterize the properties of electric charge.
state Gauss’s Theorem and Superposition principle .
Formulate electric field due to an electric dipole at axial and equatorial point
Interpret the properties of electric field of different types of charge distributions using electric field lines .
Derive the expression of electric field due to infinitely long straight wire , uniformly charged infinite plane sheet and uniformly charged thin spherical shell .
Chapter. – 2 Electric Potential and Capacitance .
Learners would be able to :
Distinguish between Electric Potential and potential difference .
Sketch equipotential surface due to different charge distribution .
Deduce the electrical potential energy of a system of two point charges and of electric dipole in an electrostatic field
Illustrate the principle behind construction of Capacitor .
Describe the effect of using dielectric or conducting slab on the capacitance of a capacitor.
Chapter – 3 Current Electricity
Learners would be able to
State the principle of Meter Bridge , Potentiometer and Ohm’s law
Describe the way of finding out internal resistance of a cell using Potentiometer .
Calculate the resistance of carbon resistors using colour code .
Draw the circuit diagrams based on Potentiometer and Meter – Bridge .
Compare different types of materials based on electrical resistivity and conductivity value
Describe the temperature dependence of resistance .
Chapter –4 : Magnetic Effects of Electric Current
Learners would be able to :
Describe Oersted’s experiment leading to the discovery of Magnetic Effects of Electric Currentv .
State Ampere’s circuital and Biot – Savart ‘s law
Deduce magnetic field due to a straight current carrying wire and current carrying circular coil .
Compare the force acting between two parallel current – carrying conductors when current flow through both the wires in same direction or in opposite direction .
Explain the principle , construction and working of Cyclotron .
Chapter –5 : Magnetism and Matter
Learners would be able to
Calculate magnetic dipole moment of a revolving electron .
Compare the magnetic field intensity due to a magnetic dipole along its axis and perpendicular to its axis.
iIllustrate bar magnet as an equivalent solenoid.
Distinguish between para - , dia – and ferro – magnetic substances .
Describe earth’s magnetic field using magnetic elements .
Chapter – 6 : Electromagnetic Induction
Learners would be able to :
Describe Faraday’s laws for explaining electromagnetic induction .
Distinguish between Self Induction and Mutual Induction
Experimentally show the concept of magnetic field .
Explain the law of conservation of energy
Chapter – 7 : Alternating Current
Learners would be able to :
Distinguish between resistance , reactance and impedence .
Describe peak and rms values of alternating current / voltage .
Deduce the expression of power in AC circuits.
Define wattless current .
Explain the significance of Power factor .
Chapter – 8 : Electromagnetic Waves
Learners would be able to :
Explain the need for displacement current .
Characterize the electromagnetic waves based on their wavelength and frequency
Describe the different uses of em waves .
Chapter – 9 : Ray Optics
Learners would be able to
1. Write all the formulae related to Reflection of light through mirrors refraction of light through lenses , lensmaker’s formula etc .
2.Explore the phenomenon of refraction of white light through Prism .
3.Explore the nature of image formed when object is placed at different positions of spherical mirrors and lenses .
4.Construct telescope using convex mirror of different focal length and aperture .
5.Cite different real life examples pertaining to scattering of light .
6.Interpret the significance of various optics phenomenon like reflection , refraction , interference etc to explain the real life phenomenon .
Chapter – 10 : Wave Optics
Learners would be able to
Deduce laws of refraction and reflection using Huygen’s Principle
Compare and contrast Interference and Diffraction .
Summarize conditions required for making an interference , diffraction and Polarization pattern.
Demonstrate experimentally the concept of Polarization of light using Polarization and Analyzer
Use different formulae related to Interference , Diffraction and Polarization for solving different numerical Problems .
State and formulate Brewster’s law , law of Malus etc .
Chapter – 11 Dual Nature of Radiation and Matter
Learners would be able
State de – broglie hypothesis
Interpret the significance of Davisson and Germer’s experiment to prove the wave nature of electron
Deduce the eavelength of electron moving in a potential difference of ‘V’ volt
Conclude the observations of Frank and Hertz’s experiment based on Photoelectric effect .
Make use of particle nature nature of electron to explain the observations of Frank and Hertz experiment
Prove that the wave nature of electron is irrelevant in explaining the observations of Frank and Hertz experiment .
Chapter – 12 : ATOMS
Learners would be able to
1. Postulates the observations of Rutherford’s “ Gold Foil Experiment
2. Compare different Atomic Models – Plum Pudding , Rutherford and Bohr Atomic
3. Identify the drawbacks of each Atomic Model studied .
Deduce the radius , velocity , Kinetic Energy , Potential Energy and Total Energy of a revolving electron based on Bohr’s Atomic Model .
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