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IB Background Info
IB Background Info
Essential idea: Capacitors can be used to store electrical energy for later use.
Nature of science:
Relationships: Examples of exponential growth and decay pervade the whole of science. It is a clear example of the way that scientists use mathematics to model reality. This topic can be used to create links between physics topics but also to uses in chemistry, biology, medicine and economics. (3.1)
Understandings:
Capacitance
Dielectric materials
Capacitors in series and parallel
Resistor-capacitor (RC) series circuits
Time constant
Applications and skills:
Describing the effect of different dielectric materials on capacitance
Solving problems involving parallel-plate capacitors
Investigating combinations of capacitors in series or parallel circuits
Determining the energy stored in a charged capacitor
Describing the nature of the exponential discharge of a capacitor
Solving problems involving the discharge of a capacitor through a fixed resistor
Solving problems involving the time constant of an RC circuit for charge, voltage and current
Guidance:
Only single parallel-plate capacitors providing a uniform electric field, in series with a load, need to be considered (edge effect will be neglected)
Problems involving the discharge of capacitors through fixed resistors need to be treated both graphically and algebraically
Problems involving the charging of a capacitor will only be treated graphically
Derivation of the charge, voltage and current equations as a function of time is not required
Data booklet reference:
International-mindedness:
Lightning is a phenomenon that has fascinated physicists from Pliny through Newton to Franklin. The charged clouds form one plate of a capacitor with other clouds or Earth forming the second plate. The frequency of lightning strikes varies globally, being particularly prevalent in equatorial regions. The impact of lightning strikes is significant, with many humans and animals being killed annually and huge financial costs to industry from damage to buildings, communication and power transmission systems, and delays or the need to reroute air transport.
Utilization:
The charge and discharge of capacitors obeys rules that have parallels in other branches of physics including radioactivity (see Physics sub-topic 7.1)
Aims:
Aim 3: the treatment of exponential growth and decay by graphical and algebraic methods offers both the visual and rigorous approach so often characteristic of science and technology
Aim 6: experiments could include (but are not limited to): investigating basic RC circuits; using a capacitor in a bridge circuit; examining other types of capacitors; verifying time constant
Resources:
Resources:
In Class Activities:
Problem Solving:
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