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| '''Scope of this document''' | | '''Scope of this document''' |
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| [[File:Mindmap.jpg|800px]] | | [[File:Mindmap.jpg|800px]] |
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− | = Theme Plan =
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− | '''CLASS'''
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− | '''SUBTOPIC'''
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− | '''CONCEPT
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− | DEVELOPMENT'''
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− | '''KNOWLEDGE'''
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− | '''SKILL'''
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− | '''ACTIVITY'''
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− | 6
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− | Charges,
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− | static electricity, electric current,
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− | conductors, insulators,
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− | simple circuits
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− | Charge
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− | is intrinsic to matter. There are two types of charges. The
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− | charges at rest constitute static current, and the charges in
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− | motion constitute electric current. Electricity needs a medium to
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− | travel, which is called as conductor. The path of flow of charges
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− | is circuit.
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− | 1.The
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− | students recall the two types of charges.
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− | 2.The students
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− | recognise the accumulation of charges in the activity,
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− | 3.The
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− | students can recognise the necessity of a condctor to the flow of
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− | charges.
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− | 4.The students can differentiate between conductors
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− | and insulators.
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− | 1.The
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− | students can perform activities to accumulate charges.
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− | 2. They
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− | can identify the conductors and insulators in the given
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− | materials
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− | 3.They can draw the diagrams to represent simple
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− | circuits.
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− | ACTIVITY
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− | 1
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− | ACTIVITY 2
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− | ACITIVITY 3
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− | 7
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− | The
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− | important effects of electricty,
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− | Electric appliances,non
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− | contact forces-charges
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− | And magnets
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− | When
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− | current flows through the substances, it shows chemical
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− | magnetic
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− | effect and heating effect.
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− | Magent attracts magnetic materials.
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− | Force of magnets is
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− | non- contact force .
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− |
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− | |
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− | 1.The
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− | students identify the different effects shown by electricity in
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− | some situations
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− | 2.The students recall the different effects of
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− | electricity
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− | 3.The students give examples for magnetic
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− | materials
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− | 4.The studetns can idntify the non contact forces
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− | such as magnetic force
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− | 1.The
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− | students perform activities show the heating effect of
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− | electricity.
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− | 2.The students differentiate between magnetic and
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− | nonmagnetic materials In the given objects.
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− | 3.The students
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− | can perform experiment to show the attractive propery of
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− | magnets
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− | 4. The students show the existance of non contact
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− | forces
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− | ACTIVITY4
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− | ACTIVITY5
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− | ACTIVITY
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− | 6
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− | |}
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− |
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− | {| border="1"
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− | |-
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− | |
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− | '''CLASS'''
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− | '''SUBTOPIC'''
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− |
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− |
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− | |
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− | '''CONCEPT
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− |
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− | DEVELOPMENT'''
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− |
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− |
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− | |
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− | '''KNOWLEDGE'''
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− |
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− |
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− | |
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− | '''SKILL'''
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− |
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− |
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− | |
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− | '''ACTIVITY'''
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− | 8
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− |
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− | Magnets
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− | and their properties, magnetic field lines
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− | Magnetic
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− | materials,some fields where magnets
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− | are used,power and
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− | electric power,
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− | sources of electricity,unit of electric energy
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− |
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− | consumed
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− |
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− | |
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− | Magnets
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− | attract magnetic materials,it sets itself in N-S direction when
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− | suspended freely. It has two poles, like poles repel and unlike
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− | poles attract, poles cannot be separated. Both poles are equal In
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− | strength.The strength of the magnet is more near the poles, we
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− | use magnets in many fields of life,power is rate of work done and
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− | as electricity does work, electric power is rate at which it
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− | does Work. Electricity energy consumed is the product of power
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− | and time
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− |
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− |
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− | 1.The
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− | students recall the properties of the magnets.
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− | 2.The students
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− | understand the applications of magents.
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− | 3.They will be able to
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− | identify the strentgh of magnets at various palces around
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− | the magents
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− | 4.They will be able to recall definitions of work
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− | and electric energy consumed
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− | 5.They will be able to recall the
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− | units of work and electric energy consumed
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− | 6.They will recall
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− | the different sources of electricity
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− |
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− |
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− | |
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− | 1.The
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− | students can perform activities to find out the properties of
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− | magnets.
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− | 2. The students differentiates between magnets
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− | between the magnets and Non magnetic materials using the
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− | properties of the magnets
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− | 3. Can design simple devices which
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− | work on the properties of the magnets
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− | ACTIVITY7
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− | ACTIVITY8
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− | ACTIVITY
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− | 9
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− | ACTIVITY10
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− | 9
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− |
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− | Magnetic
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− | field lines and the property of magnetic
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− | field lines,relation
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− | between electricity and magnetic
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− | Field. Oersted's
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− | experiment,pattern of magentic
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− | Fields in various
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− | situations,elecric potential and
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− | Potential diference,
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− | electric current necessity of
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− | electriomagnetic force in the
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− | flow of current.
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− |
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− |
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− | Magnetism
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− | is due to charges in motion. Unlike charges, magnetic monopoles
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− | do ot exist.
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− |
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− |
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− | What
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− | does a field line represent– it is not a force; but rather the
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− | effect that a charged particle will experience. The magnetic
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− | force is expressed in field lines, the field lines never
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− | intersect.
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− |
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− |
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− | Electricity
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− | and magnetism are linked. When current flows through
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− | conductors,magnetic field lines are produced which shows relation
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− | between magnets and electric Current. Electric potential is the
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− | work done to move charge infinity to to that point, when there is
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− | difference in potential.
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− |
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− |
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− | 1.
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− | The students identify magnetic field lines around diffetn shapes
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− | of magents.
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− | 2. The students recall the properties of magnetic
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− | lines of force
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− | 3. The students can identify the relation
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− | between magentism and electricity
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− | 4. They can recall Ohm's
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− | law
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− | 5. They can define potential,potential difference,electric
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− | current and emf.
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− |
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− | 1.
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− | Calculate voltage, current and resistance using Ohm’s law.
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− | 2.
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− | Analyze circuit diagrams for series circuits and parallel
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− | circuits.
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− | 3. Can calculate the electric energy consumed in
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− | various situations
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− | 4. Solve equations that relate electric
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− | power to current, voltage and electrical Energy.
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− | ACTIVITY11
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− | ACTIVITY12
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− | ACTIVITY
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− | 13
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− | ACTIVITY14
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− | 9
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− |
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− |
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− | Ohm's
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− | law,
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− | concept of resistance and resistivity,
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− | combination of
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− | resistances,electric energy
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− | consumed,heat produced, steps to
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− | save electricity.
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− |
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− |
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− | |
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− | The
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− | flow in unit time is called electric current. In a conductor
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− | the
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− | flow also depends on the resistance of the wire. The
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− | resistance of a
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− | Wire is made useful in many
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− | situations,specially to produce heat.
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− | As electric current is
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− | the best form of energy, it should be saved.
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− |
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− |
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− | 6.The
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− | students list the factors on which resistance depeds
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− | 7.The
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− | students will identify the heat produced when current flows
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− | through resistances
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− | 8.They describe resistivity.
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− | 9.They
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− | students briefly expain the methods to save electric current
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− |
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− |
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− | 5.
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− | Describe devices and procedures for maintaining electrical
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− | safety.
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− | 6.They draw simple circuits .
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− | 7. The students
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− | perform activity to prove Ohm's law.
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− | 8.They obtaining the
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− | skill of calculating the problems on Ohm's law
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− | 10
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− |
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− |
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− | Electromagnetic
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− | Induction,Faraday' laws,AC and DC,
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− | fleming's rules,AC and DC
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− | dynamo, Types of
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− | Electromagnetic induction,Eddy currents and
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− | Lenz' law.
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− |
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− |
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− | When
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− | magnetic field inked with the conductor changes an emf is
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− | induced
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− | in thre conductor. The induced emf depends on rate of change
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− | magnetic field and no of turns in the coil.
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− |
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− |
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− | 1
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− | .The students observe the experimental evidence for
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− | electromagnetic induction.
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− | 2.They understand the
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− | circumstances under which changing magnetic fields lead to
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− |
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− | induced currents.
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− | 3.They understand how the movement of a
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− | conductor through a magnetic field leads
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− | to an induced emf.
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− |
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− | 4.They understand and use Lenz’s law for induced currents.
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− |
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− |
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− | 1.The
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− | students can perform activities to prove Farady's experiment on
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− | electromagnetic induction
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− | ACTIVITY15
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− | ACTIVITY16
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− | ACTIVITY
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− | 17
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− | ACTIVITY18
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− | ACTIVITY19
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− | ACTIVITY20
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− | ACTIVITY 21
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− | 10
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− |
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− |
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− | Induction,
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− | solenoid, field lines in solenoid,motor and
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− | Its
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− | applications.Domestic circuits,
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− | Steps to save electricity
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− |
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− |
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− | |
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− | The
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− | direction of emf is
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− | perpendicular to magnetic field. The
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− | advantages of AC in power generation; why we do not generate
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− | using DC. The possibility of voltage step up and down.
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− |
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− |
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− | When
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− | current carrying conductor is kept in magnetic field it
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− | experiences mechanical force.
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− |
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− |
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− | As
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− | electric current is the best form of energy, it should be saved.
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− |
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− |
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− | 5.They
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− | use Lenz’s law and Faraday’s law to determine the direction
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− | and size of
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− | Induced currents.
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− | 6.They recall the laws of
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− | electromagnetic Induction, fleming's rules.
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− | 7. The students
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− | differentiate between AC And DC; a motor and a dynamo
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− | 9. The
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− | students will mention the use of dynamos and motors
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− | 10.The
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− | students will be able to describe the methods to save
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− | electricity.
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− |
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− |
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− | |
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− | 2.
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− | The students can draw the diagrams of AC dynamo,DC dynamo,
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− | 3.
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− | They can represent AC and DC with graph.
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− | 4.They can construct
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− | simple Dynamo
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− | 5. They can construct simple motor
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− | 6. They
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− | can explain the working of Dynamo and Motor
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− | 7. They can
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− | perform activity to expain lenz's law
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− |
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− |
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− |
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− |
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− |
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− |
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− | |}
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− |
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| = Syllabus = | | = Syllabus = |
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− | [[File:Electron.jpg|thumb|center]] | + | [[File:Electron.jpg|30px|center]] |
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− | [[File:proton.jpg|thumb|center]][[File:proton.jpg]] | + | [[File:proton.jpg|30px|center]] [[File:proton.jpg|30px|center]] |
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− | [[File:ElectricPotential.gif|thumb|left]] | + | [[File:ElectricPotential.gif|left]] |
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| == Voltage sources – batteries and generators == | | == Voltage sources – batteries and generators == |
| | | |
− | [[File:Electromagnetism_%20Resource_Material_Subject_Teacher_Forum_September_2011_html_bb112d6.png]]A | + | [[File:CurrentElecticity1.png|left]] |
− | battery or a generator does work to pull electrons from positive | + | A battery or a generator does work to pull electrons from positive |
| charges. In a battery, this is done using chemical reactions; where | | charges. In a battery, this is done using chemical reactions; where |
| the energy of the chemical bonds is converted into electrical energy. | | the energy of the chemical bonds is converted into electrical energy. |
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| induction. | | induction. |
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− | [[File:Electromagnetism_%20Resource_Material_Subject_Teacher_Forum_September_2011_html_70ab754b.jpg]] | + | [[File:CurrentElecticity2.jpg]] |
| The cell shown here uses dilute sulphuric acid as | | The cell shown here uses dilute sulphuric acid as |
| the electrolyte. One of the electrodes is carbon ; the other is | | the electrolyte. One of the electrodes is carbon ; the other is |
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| after a while, all the zinc will dissolve and the cell will be dead. | | after a while, all the zinc will dissolve and the cell will be dead. |
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− |
| |
| == Electrical resistance == | | == Electrical resistance == |
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− | [[File:Electromagnetism_%20Resource_Material_Subject_Teacher_Forum_September_2011_html_m74e99ab1.gif]] | + | [[File:CurrentElecticity3.gif]] |
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| voltage is not very high. | | voltage is not very high. |
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− |
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| === Resistors in series and parallel === | | === Resistors in series and parallel === |
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− | [[File:Electromagnetism_%20Resource_Material_Subject_Teacher_Forum_September_2011_html_m7ebc180f.png]] | + | [[File:CurrentElecticity4.png]] |
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− |
| |
| === Speed and source of electrons in a circuit === | | === Speed and source of electrons in a circuit === |
| | | |