Physics Revision Jeopardy Template

Equations

Unit 3 Topic 1

Unit 3 Topic 2

Unit 4 Topic 1

Unit 4 Topic 2 & 3

100

An equation that incorporates: Velocity in the y-axis, Displacement in the y-axis, Gravity

v²=u²+2gs

100

The force acting along an imaginary line drawn perpendicular to the surface

normal Force

100

9*10⁹Nm²C^-2

the constant of proportionality

100

A subatomic particle that we shouldn't be able to detect but can

a muon

100

Conservation at the quantum level

Lepton and Baryon numbers

200

The force experienced by 2 charges on each other

F=(1/4pi(ep.))*(Qq/r²)

200

Breaking into components, adding or subtracting the components and recombining them

a resultant vector

200

A long straight coil of wire used to generate a controlled and almost uniform magnetic field

solenoid

200

A non-accelerating FoR

Inertial frame of reference

200

Explain The photoelectric effect

emission of electrons when light shines on a material

300

Mass - Energy equivalence

E=mc²

300

Travel at a constant speed yet be accelerating

Moving in a constant circular pattern

300

An interaction between a magnet and a coil

electromagnetic induction

300

The 2 postulates of special relativity

laws of physics are all the same in all inertial frames of reference

speed of light has the same value in all internal frames of reference

300

Limitations of the rutherford model explained by the Bohr model

stability of the atom and emission lines

400

Quantised angular momentum

mvr=nh/(2pi)

400

The region of space surrounding a body in which another body experiences a force of attraction

gravitational Field

400

Perpendicular fields propagating in the same direction

an Electromagnetic wave

400

The time between two events measured by an observer at rest to the events

Proper time interval

400

The reasons for Wave-Particle Duality

Young's double slit and waves in a vacuum

500

F_n=k(Q₃q₂/r₂²)+k(Q₁q₂/r₁²)

Simplified to:

r₂=((sqrt(kQ₃q₂)r₁)/(sqrt(F_nr₁²-kQ₁q₂))

the distance between charges 2 and 3 in a system of 3 charges

500

The square of the sidereal period of a planet is directly proportional to the cube of its mean distance from the sun.

All planets move about the sun in elliptical orbits, having the sun as one of their foci.

A radius vector joining any planet to the sun sweeps out equal areas in equal lengths of time

Kepler's 3rd, 1st and 2nd laws of planetary motion

500

A magnetic field is produced in accordance with the conservation of energy causing work to be done

Lenz's law

500

Depending on the FoR on each twin. In each situation, the other has aged more.

Time dilation in the twin's paradox

500

Symmetry in particle interactions

Crossing, Charge-reversal and Time-reversal