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42 Cards in this Set
- Front
- Back
- 3rd side (hint)
Define Scalar quantity |
A quantity with only magnitude |
🧲 |
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Examples of scalar quantity |
Speed, distance, temperature, mass |
s dt |
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Define vector quantity + examples |
A quantity with both magnitude and direction Eg. Velocity, displacement, force, acceleration, weight |
bi |
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Equation for acceleration |
a= v-u/t |
a butt (sounds like this) |
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Equation for acceleration |
a= v-u/t |
a butt (sounds like this) |
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Equation for weight |
Weight (N) = mass (Kg) x gravitational field strength (N/kg) |
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Equation for acceleration |
a= v-u/t |
a butt (sounds like this) |
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Equation for weight |
Weight (N) = mass (Kg) x gravitational field strength (N/kg) |
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What type of wave is a sound wave? |
A longitudinal wave |
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Equation for acceleration |
a= v-u/t |
a butt (sounds like this) |
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Equation for weight |
Weight (N) = mass (Kg) x gravitational field strength (N/kg) |
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What type of wave is a sound wave? |
A longitudinal wave |
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Equation for frequency of a wave |
Frequency: no. of waves to pass a point/time taken |
Fish Net Tights |
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Equation for acceleration |
a= v-u/t |
a butt (sounds like this) |
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Equation for weight |
Weight (N) = mass (Kg) x gravitational field strength (N/kg) |
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What type of wave is a sound wave? |
A longitudinal wave |
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Equation for frequency of a wave |
Frequency: no. of waves to pass a point/time taken |
Fish Net Tights |
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Difference between light waves and radio waves |
Radio waves are much bigger (as there atoms are larger) meaning they can pass through a wall whereas sound waves cannot |
ato |
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Equation for acceleration |
a= v-u/t |
a butt (sounds like this) |
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Equation for weight |
Weight (N) = mass (Kg) x gravitational field strength (N/kg) |
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What type of wave is a sound wave? |
A longitudinal wave |
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Equation for frequency of a wave |
Frequency: no. of waves to pass a point/time taken |
Fish Net Tights |
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Difference between light waves and radio waves |
Radio waves are much bigger (as there atoms are larger) meaning they can pass through a wall whereas sound waves cannot |
ato |
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Equation for PCR |
Power= Current squared (i^2) x r |
square |
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Equation for acceleration |
a= v-u/t |
a butt (sounds like this) |
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Equation for weight |
Weight (N) = mass (Kg) x gravitational field strength (N/kg) |
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What type of wave is a sound wave? |
A longitudinal wave |
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Equation for frequency of a wave |
Frequency: no. of waves to pass a point/time taken |
Fish Net Tights |
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Difference between light waves and radio waves |
Radio waves are much bigger (as there atoms are larger) meaning they can pass through a wall whereas sound waves cannot |
ato |
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Equation for PCR |
Power= Current squared (i^2) x r |
square |
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What does constant acceleration look like on a distance-time graph? |
📈 rising but with a slight curve |
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Equation for acceleration |
a= v-u/t |
a butt (sounds like this) |
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Equation for weight |
Weight (N) = mass (Kg) x gravitational field strength (N/kg) |
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What type of wave is a sound wave? |
A longitudinal wave |
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Equation for frequency of a wave |
Frequency: no. of waves to pass a point/time taken |
Fish Net Tights |
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Difference between light waves and radio waves |
Radio waves are much bigger (as there atoms are larger) meaning they can pass through a wall whereas sound waves cannot |
ato |
|
Equation for PCR |
Power= Current squared (i^2) x r |
square |
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What does constant acceleration look like on a distance-time graph? |
📈 rising but with a slight curve |
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What does constant acceleration look like on a velocity time graph? |
📈 straight constant line like emoji |
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General wave equation |
Wave equation: wave speed (m/s)= Frequency (Hz) x Wave length (m) |
(N) S F W(l) |
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General wave equation |
Wave equation: wave speed (m/s)= Frequency (Hz) x Wave length (m) |
(N) S F W(l) |
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Examples of transverse waves |
Any EM waves (radio and light) |
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