: ( P = U \cdot I = R \cdot I^2 = \fracU^2R ) (Watts)
$$N = n \times N_A$$
: total mass of reactants = total mass of products
Dans un circuit en série : $U_générateur = U_1 + U_2 + \dots$
: ( P V = n R T ) ( P ) = pressure (Pa), ( V ) = volume (m³), ( n ) = moles, ( R = 8.314 , \textJ/mol·K ), ( T ) = temperature (K)
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: ( P = U \cdot I = R \cdot I^2 = \fracU^2R ) (Watts)
$$N = n \times N_A$$
: total mass of reactants = total mass of products formule de physique chimie
Dans un circuit en série : $U_générateur = U_1 + U_2 + \dots$ : ( P = U \cdot I =
: ( P V = n R T ) ( P ) = pressure (Pa), ( V ) = volume (m³), ( n ) = moles, ( R = 8.314 , \textJ/mol·K ), ( T ) = temperature (K) ( V ) = volume (m³)