Unit 2: Mechanics, Materials and Waves

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Karteikarten am Unit 2: Mechanics, Materials and Waves, erstellt von Michael Priest am 08/05/2015.
Michael Priest
Karteikarten von Michael Priest, aktualisiert more than 1 year ago
Michael Priest
Erstellt von Michael Priest vor mehr als 9 Jahre
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Zusammenfassung der Ressource

Frage Antworten
Define: scalar and vector quantities Scalar: magnitude only Vector: magnitude and direction
Give an example of a scalar and a vector quantity Scalar: distance, speed, mass Vector: displacement, velocity, weight
Define: displacement Straight line distance between two points
Define: speed Rate of change of distance
Define: velocity Rate of change of distance
Define: acceleration Rate of change of velocity
Define: equilibrium Resultant moment = zero Resultant force = zero
Define: moment Product of force and perpendicular distance to the pivot
Define: principle of moments In equilibrium, total anticlockwise moments = total clockwise moments about a point
Define: couple Two equal and opposite forces acting along parallel lines of action Couple = force x shortest distance between their lines of action
Define: centre of mass The point where all the mass of an object can be considered to act
Define: centre of gravity The point where all the weight of an object can considered to act
What does the gradient of a displacement-time graph represent? speed
What does the gradient of a velocity-time graph represent? acceleration
What does the area under a velocity-time graph represent? displacement
Why can horizontal motion and vertical motion be treated independently? They act at 90 degrees to each other or Horizontal motion is constant and vertical motion involves acceleration
State Newton's 1st law Objects remain at rest or constant velocity unless external forces act
State Newton's 2nd Law Acceleration is proportional to resultant force (F = ma)
State Newton's 3rd Law For every action there is an equal and opposite reaction
Describe one situation where Newton's 1st law applies Constant velocity so no friction or air resistance would occur in space or another situation where friction is negligible e.g. linear air track
Describe how the forces acting on a falling object change as it falls Initially, weight is greater than air resistance. As speed increases, air resistance increases, until air resistance = weight, so no resultant force and no acceleration
What is meant by conservation of energy? Energy is neither created nor destroyed only changed from one form to another
Define: density The ratio of an objects mass to its volume
Define: tensile stress The force per unit area of cross-section
Define: tensile strain Extension per unit length
State Hooke's Law Extension of a material (or spring) is directly proportional to the applied force, up to the limit of proportionality
What is meant by 'elastic limit'? The point beyond which the material will not return to its original size and shape
Define: Young Modulus The ratio of tensile stress to tensile strain
What does the area under a stress vs. strain graph represent? Energy stored per unit volume
What does the area under a force vs. extension graph represent? Energy stored
What does the gradient of a stress vs. strain graph represent? Young Modulus
Which equation starts the derivation for the energy stored in a stretched material? Work = Force x displacement
Define: Breaking Stress The breaking force per unit area of a material
Define: progressive wave The movement of a disturbance from a source, which transfers energy and momentum from the source to places around it
Define: stationary wave Stationary or standing waves result from the superposition of two progressive waves with same frequency and amplitude
Define: Transverse wave Particles in the path of the wave oscillate at 90 degrees to the direction of wave propagation
Define: Longitudinal wave Particles in the path of the wave oscillate parallel to the direction of wave propagation
What is the phase difference between particles one wavelength apart on a progressive wave? 0, they are in phase
What is the phase difference between particles half a wavelength apart on a stationary wave? antiphase / 180 degrees
What is the phase difference between particles half a wavelength apart on a progressive wave? 180 degrees / antiphase
What property of light waves does polarisation demonstrate? They are transverse
If light refracts towards the normal what does this mean for the refractive indices of two materials? Refractive index of material 1 is lower than material 2
If light refracts away from the normal what does this mean for the refractive indices of two materials? Refractive index of material 1 is higher than material 2
State Snell's Law of Refraction When a ray of monochromatic light travels from a less dense material to a more dense material it will bend towards the normal (provided it approaches the boundary at an angle other than 90 degrees)
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