Created by Michael Priest
almost 9 years ago


Question  Answer 
Define: conservation of momentum  In any collision or explosion, total momentum remains constant provided no external forces act. 
Define: elastic collision  No kinetic energy is lost 
How are force and momentum related?  Force = rate of change of momentum 
What is meant by 'impulse'?  The product of force and time 
Define the term 'radian'  1 radian is the angle subtended by a circle of radius r by an arc of length r 
Define: angular speed  The angle in radians turned through in 1s 
Give 3 factors that affect centripetal force  mass speed radius (of circle) 
What conditions must be satisfied for an object to be in SHM?  1. The acceleration of the object is proportional to its displacement from the equilibrium position. 2. The acceleration is always directed back towards the equilibrium position. 
Energy in SHM is the interchange between which two energy forms  Kinetic and potential 
How is the oscillations of a simple pendulum and a massspring system affected if taken to the Moon?  simple pendulum  longer time period massspring  no effect 
What is a free vibration?  System displaced and left to oscillate at its natural frequency 
What is a forced vibration?  System driven at frequency other than natural frequency 
What happens when a system is driven at its natural frequency?  Resonance Amplitude of oscillations increases 
What is damping?  Resistive force that causes amplitude of oscillations to decrease 
What is critical damping?  System returns to equilibrium as quickly as possible without 'overshooting' 
State Newton's gravitational law  Gravity is an attractive force between point masses that is proportional to the product of the two masses and inversely proportional to the square of the distance between them 
What do gravitational field lines show?  The direction a small test mass would move when placed in the gravitational field 
Describe in one word the gravitational field around a planet  Radial (inwards) 
What is an equipotential?  A region / surface of constant potential 
Define: gravitational field strength  The force per unit mass acting on a small test mass placed in a gravitational field 
Define: gravitational potential  The energy required to bring a unit mass from infinity to some point in a gravitational field, this is work done by gravity 
Why is gravitational potential a negative value?  Work is done to reach infinity at which point gravitational potential is zero 
What is the gradient of a gravitational potential vs. distance graph equal to?  Gravitational field strength 
Define: electric field strength  The force per unit charge acting on a small positive charge at that point 
What is the unit for electric field strength?  Newton per Coulomb or Volt per metre 
What is the unit for gravitational field strength?  N / kg 
Define: electric potential  The work done in bringing a unit positive charge from infinity to that point 
How do you find the electric potential difference between two points in an electric field?  The work done in moving a unit positive charge from the point at the lower potential to that at the higher potential 
What is the unit for electric potential difference?  Volt, V 
What is the electric field strength equal to in a uniform field?  E = V / d 
What is the force F on a charge q equal to in an electric field of field strength E?  F = qE = qV / d 
Describe the motion of a charged particle entering a uniform electric field perpendicular to the field lines  parabolic 
Give one difference between electric and gravitational fields  Act on charges instead of masses or Can be attractive or repulsive, g fields are only attractive 
Define capacitance  charge stored / potential difference 
Define the Farad, F  1 Coulomb stored when a p.d. of 1 Volt is applied 
What does the area under of a graph of Q against V represent?  Energy stored 
What does the gradient of a graph of Q against V represent?  Capacitance 
What is the time constant of a capacitor equal to?  RC 
After how many time constants is a capacitor considered to be charged or discharged?  5 
Define: magnetic flux density  Force per unit current per unit length 
Fleming's left hand rule: State what the 3 fingers represent  First finger: B field Second finger: Current Thumb: Force 
Fleming's right hand rule: State what the 3 fingers represent  First finger: B field Second finger: Current Thumb: Force 
Why does a particle moving in a circular path not spiral inwards?  Force is perpendicular to the velocity at any time The force causes a change in direction, but not a change in the magnitude of the velocity No work is done in the direction of the force 
State Lenz's law  The direction of the induced EMF is such that the current it causes to flow opposes the change which causes it 
Define: magnetic flux and state the unit  Product of B and A Webers, Wb 
Define: magnetic flux linkage and state the unit  Product of the number of turns on a coil and the magnetic flux (NBA) Unit: Weberturns 
How is the induced EMF and the flux linkage related?  Rate of change of flux linkage = magnitude of induced EMF 
Describe how a p.d. is induced across the secondary coil of a transformer  An alternating p.d. across the primary coil produces an alternating magnetic field in the iron core. This is linked to the secondary coil. An alternating p.d. is induced across the secondary coil. 
Describe how the efficiency of a transformer is maximised.  The core is made from iron which can be magnetised and demagnetised quickly. The core is laminated, reducing eddy currents. Low resistance wire is used for the coils, reducing the heating effect of the current. 
Why is electricity transmitted at high potential differences?  High p.d. means low current. Low current means less energy transferred to the surroundings, increasing efficiency 
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