Erstellt von Michael Priest
vor mehr als 9 Jahre
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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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