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lab_electrical_engineering:1_resistors:mesh-set [2026/03/10 03:22] – created mexleadminlab_electrical_engineering:1_resistors:mesh-set [2026/03/10 03:42] (current) mexleadmin
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 Set the voltage on the power supply to $12~\rm V$ and measure this voltage precisely using a multimeter. Set up the measuring circuit shown in <imgref Fig-2_Mesh-set_V1>. Set the voltage on the power supply to $12~\rm V$ and measure this voltage precisely using a multimeter. Set up the measuring circuit shown in <imgref Fig-2_Mesh-set_V1>.
  
-{{drawio>Fig-1_Mesh-set_V1.svg}}\\+{{drawio>lab_electrical_engineering:1_resistors:Fig-1_Mesh-set_V1.svg}}\\
 <imgcaption Fig-2_Mesh-set_V1 | Mesh-set> </imgcaption> <imgcaption Fig-2_Mesh-set_V1 | Mesh-set> </imgcaption>
  
 Add the voltage arrows and measure $U$, $U_{\rm 1}$ und $U_{\rm 2}$: Add the voltage arrows and measure $U$, $U_{\rm 1}$ und $U_{\rm 2}$:
  
-{{drawio>Table-1_Mesh-set_V1.svg}}\\+{{drawio>lab_electrical_engineering:1_resistors:Table-1_Mesh-set_V1.svg}}\\
 <tabcaption Table-4_mesh-set_V1 | Mesh set voltage mesurement> </tabcaption> <tabcaption Table-4_mesh-set_V1 | Mesh set voltage mesurement> </tabcaption>
  
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 Set the voltage on the power supply to $12~\rm V$ and measure the voltage accurately with a multimeter. In the first step, set up the measuring circuit shown in <imgref Fig-3-Node-set-1_V1>: Set the voltage on the power supply to $12~\rm V$ and measure the voltage accurately with a multimeter. In the first step, set up the measuring circuit shown in <imgref Fig-3-Node-set-1_V1>:
  
-{{drawio>Fig-3_V1-Node-Set-1.svg}} <imgcaption Fig-3-Node-set-1_V1 | Node-set circuit 1> </imgcaption>+{{drawio>lab_electrical_engineering:1_resistors:Fig-3_V1-Node-Set-1.svg}} <imgcaption Fig-3-Node-set-1_V1 | Node-set circuit 1> </imgcaption>
  
 Draw the arrows for the directions of currents $I_{\rm 1}$ and $I_{\rm 2}$ in <imgref Fig-4-Node-set-2_V1>. The DC current measurement range must be set on both multimeter using the rotary switch. Then measure currents $I_{\rm 1}$ and $I_{\rm 2}$ and enter the measured values in <tabref Table-5_Node-set_V1>. Draw the arrows for the directions of currents $I_{\rm 1}$ and $I_{\rm 2}$ in <imgref Fig-4-Node-set-2_V1>. The DC current measurement range must be set on both multimeter using the rotary switch. Then measure currents $I_{\rm 1}$ and $I_{\rm 2}$ and enter the measured values in <tabref Table-5_Node-set_V1>.
  
-{{drawio>Fig-4_V1-Node-Set-2.svg}} +{{drawio>lab_electrical_engineering:1_resistors:Fig-4_V1-Node-Set-2.svg}} 
 <imgcaption Fig-4-Node-set-2_V1 | Node-set circuit 2> </imgcaption> <imgcaption Fig-4-Node-set-2_V1 | Node-set circuit 2> </imgcaption>
  
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 Switch the power supply back on and measure the current $I$. Enter its value in <tabref Table-5_Node-set_V1>. Switch the power supply back on and measure the current $I$. Enter its value in <tabref Table-5_Node-set_V1>.
  
-{{drawio>Table-5_Node-set_V1.svg}}\\+{{drawio>lab_electrical_engineering:1_resistors:Table-5_Node-set_V1.svg}}\\
 <tabcaption Table-5_Node-set_V1 | Node set current mesurement> </tabcaption> <tabcaption Table-5_Node-set_V1 | Node set current mesurement> </tabcaption>