Connecting componets in series simply means they are connected one after another in one long line
In series with the circuit and never in parallel. The reason being that it will cause the circuit total resistance to drop which will make the circuit draw excessive current. That's a short circuit actually.
Loading effect refers to the impact that measuring instruments have on the circuit they are connected to. For shunt-connected instruments, this effect is minimized because they are designed to draw a small amount of current, allowing the majority of the circuit's current to pass through without significant alteration. In contrast, series-connected instruments can introduce a higher resistance into the circuit, potentially altering the current flow and affecting the accuracy of the measurement. Thus, shunt configurations typically have less loading effect compared to series configurations.
Parallel connections will draw more current than equivalent lights connected in series, so the parallel configuration will be brighter.
--------------[res 1---]------------|-----------------|| | || [res 2] [res 3]| | || | |--------------------------------------------------------res 1 is in series with a parallel connection of res 2 and 3. This is just one example.
- Mark two points on your paper, a few inches apart. - Draw the symbol for a battery or power supply that is connected to the two points. - Draw the symbol for an electronic component, such as a capacitor, resistor, light bulb, photocell, thyristor, thermistor etc., that is connected to the same two points. - Draw the symbol for ANOTHER electronic component that is also connected to the same two points. - Now you have the diagram of a circuit with a power supply and two components all in parallel.
The amperage on a circuit is governed by the connected load. If a load changes its current draw it can be detected by an amp meter connected to the circuit.
Because the components are much more detailed and difficult to draw in real life
To determine amp draw in an electrical circuit, you can use Ohm's Law, which states that current (amps) equals voltage divided by resistance. Measure the voltage across the circuit and the resistance of the components in the circuit, then divide the voltage by the resistance to calculate the amp draw.
An ammeter is connected in series with the load to measure the current flowing through the load. By placing the ammeter in series, it becomes a part of the circuit path so that all the current flowing through the load also passes through the ammeter, allowing for an accurate measurement of the current.
circuit breaker and fuses used in series to break the circuit in overcurrent situation to block current to flow through circuit.
12 Amperes is.
a Block Diagram usually means that you draw the main components of a circuit/system with boxes *pretend / means in a box -/amplifier/-->/Analog to Digital Convertor/-->/Output/ a Block Diagram usually means that you draw the main components of a circuit/system with boxes *pretend / means in a box -/amplifier/-->/Analog to Digital Convertor/-->/Output/