For each law/concept etc., select the most fitting statement. KVL ( Choose) [ Choose] The voltage is equal to zero The algebraic sum of voltages for element connected to a node is zero Path through which no current can flow Elements connected so that current must be equal The short circuit current in a two terminal circuit V- IR Coulomb/Second KCL Ohms Law Elements connected in parallel Elements connected so that voltage must be equal to zero Resistors connected in series Open Circuit The sum of the current entering the node is equal to sum of the current leaving the node. Units of voltage the open circuit voltage divided by the short circuit current The algebraic sum of voltages for a closed loop is zero Unit of Current ( Choose ) Series connected elements Voltage Division applies to ( Choose ) The Thevenin resistance of a two terminal circuit is equal to [ Choose ) The current source in a Norton equivalent circuit is equivalent to ( Choose Joules per coulomb ( Choose )

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For each law/concept etc., select the most fitting statement. KVL | Choose) [Choose] The voltage is equal to zero The algebraic sum of voltages for element connected to a node is zero Path through which no current can flow Elements connected so that current must be equal The short circuit current in a two terminal circuit KCL Ohms Law V- IR Coulomb/Second Elements connected in parallel Elements connected so that voltage must be equal to zero Resistors connected in series Open Circuit The sum of the current entering the node is equal to sum of the current leaving the node. Units of voltage Unit of Current the open circuit voltage divided by the short circuit current The algebraic sum of voltages for a closed loop is zero Series connected elements (Choose Voltage Division applies to Choose The Thevenin resistance of a two terminal circuit is equal to | Choose The current source in a Norton equivalent circuit is equivalent to ( Choose ) Joules per coulomb (Choose