The independent variable is the component you change, such as the voltage or resistor value. The dependent variable is the component that changes in response to the independent variable, like the current or brightness of a light. The controlled variables are factors you keep constant, such as the type of wires or battery used.
Independent variable: the number of cells in the circuit. Dependent variable: the current measured by the ammeter. Control variable: resistance of the resistor, type of light bulb.
Independent SourcesIndependent sources produce current/voltage at a particular rate that is dependent only on time. These sources may output a constant current/voltage, or they may output current/voltage that varies with time.Dependent SourcesDependent sources are current or voltage sources whose output value is based on time or another value from the circuit. A dependent source may be based on the voltage over a resistor for example, or even the current flowing through a given wire. The following sources are possible:Current-controlled current sourceCurrent-controlled voltage sourceVoltage-controlled current sourceVoltage-controlled voltage sourceDependent sources are useful for modelling transistors or vacuum tubes.
According to Ohm's Law, the two variables that affect the amount of current in a circuit are voltage (V) and resistance (R). The current (I) flowing through a circuit is directly proportional to the voltage applied across it and inversely proportional to the resistance in the circuit.
An electronic component, such as a resistor, capacitor, transistor, or integrated circuit, usually controls the flow of current in an electrical circuit. It can either amplify, switch, or modulate the flow of electricity to achieve specific functions within the circuit.
The induced emf in a circuit is not directly dependent on the resistance of the circuit. It is primarily determined by the rate of change of magnetic flux through the circuit. However, the resistance of the circuit can affect the current flow and ultimately impact the magnitude of the induced emf through Ohm's law (V = IR).
Independent variable: the number of cells in the circuit. Dependent variable: the current measured by the ammeter. Control variable: resistance of the resistor, type of light bulb.
Independent SourcesIndependent sources produce current/voltage at a particular rate that is dependent only on time. These sources may output a constant current/voltage, or they may output current/voltage that varies with time.Dependent SourcesDependent sources are current or voltage sources whose output value is based on time or another value from the circuit. A dependent source may be based on the voltage over a resistor for example, or even the current flowing through a given wire. The following sources are possible:Current-controlled current sourceCurrent-controlled voltage sourceVoltage-controlled current sourceVoltage-controlled voltage sourceDependent sources are useful for modelling transistors or vacuum tubes.
So if you're adding or taking away more salt to see the effect then the salt is your independent variable. If you're seeing how it effects your salt circuit then you need to find a way to measure those effects, whatever that it is your dependant variable. Your controlled variable is what you're keeping the same every time you add or take away more salt. Just remember: IV is what you change DV is what you record CV is what you keep the same Good luck!!
Circuit
this is a circuit in which the switch is located before the load in the circuit
No, it can be on a circuit with conventional outlets.
An independent circuit is an independent wrestling promotion that is much smaller than the WWE or TNA. The matches held here are usually not televised and broadcasted.
A contactor is an electrically controlled switch. It is used for switching a power circuit. A contactor is controlled by a circuit which has a much lower power level than the switched circuit.
Boss its a circuit not a device, you can also create one of yours..... just use simple logic of voltage divider and current divider rules...-satendra.svnit@gmail.com
phase controlled RECTIFIER circuit used Natural Commutation......
Flow of electricity in a circuit is controlled by using 'resistor'.
Breaking the tab on an outlet separates the top and bottom outlets, allowing them to be controlled by different switches or circuits. This affects the electrical circuit by providing independent control over each outlet, enabling more flexible use of the power source.