Physics: Paper 1 Equations (P1->P7)

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Energy transferred (J) equivalent to =
Work Done (J)
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Work Done (J) =
Power (W) x Time (s) OR Force (N) x Distance (m)
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Moment (Nm) =
Force (N) x Distance (m)
3 of 24
GPE (J) =
Mass (kg) x Gravity (N/kg) x Change in height (m)
4 of 24
KE (J) =
1/2 x Mass (kg) x Speed x Speed (m/s)
5 of 24
Resistance in series (Ω) =
R1 (Ω) + R2 (Ω) + ...
6 of 24
Weight (N) =
Mass (kg) x Gravity (N/kg)
7 of 24
Resistance (Ω) =
Voltage/PD (V) / Current (A)
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EPE (J) =
1/2 x Spring Constant (N/m) x Extension x Extension (m)
9 of 24
Wavespeed (m/s) =
Frequency (Hz) x Wavelength (m)
10 of 24
Frequency (Hz) =
1 / Period (s)
11 of 24
Pressure (Pa) x Volume (m3) =
Constant
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Voltage/PD (V) =
Energy transferred (J) / Charge (C) OR Current (A) x Resistance (Ω) OR Power (W) / Current (A)
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Total Resistance in Parallel (Ω) =
< Smallest Resistance (Ω)
14 of 24
Charge Flow (C) =
Current (A) x Time (s)
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Current (A) =
Voltage/PD (V) / Resistance (Ω)
16 of 24
SHC (J/kgC) =
Energy Transferred (J) / (Mass (kg) x Temp Change (C))
17 of 24
Specific Latent Heat of Fusion/Vaporisation (J/kg) =
Energy (J) / Mass (kg)
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Energy Transferred (J) =
SHC (J/kgC) x Mass (kg) x Temp Change (C)
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Density (kg/m3 OR g/cm3) =
Mass (kg OR g) / Volume (m3 OR cm3)
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Density (kg/m3 OR g/cm3) =
Mass (kg OR g) / Volume (m3 OR cm3)
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Power (W) =
Energy Transferred (J) / Time Taken (s) OR Resistance (Ω ) x Current x Current (A) OR Current (A) x Voltage/PD (V)
22 of 24
Efficiency (%) =
(Useful Output (J) / Total Input (J)) x 100
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Efficiency (%) =
(Useful Output (J) / Total Input (J)) x 100
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Other cards in this set

Card 2

Front

Work Done (J) =

Back

Power (W) x Time (s) OR Force (N) x Distance (m)

Card 3

Front

Moment (Nm) =

Back

Preview of the front of card 3

Card 4

Front

GPE (J) =

Back

Preview of the front of card 4

Card 5

Front

KE (J) =

Back

Preview of the front of card 5
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