This looks like a question from a student's coursework. It is impossible to answer without seeing a circuit diagram.
The actual diagram is needed to show which components are in parallel and which are in series.
If you want someone else to do your homework for you, you will either have to find out how to attach a Related Link to this question, going to a separate web page which shows the diagram, or - much better - read your course materials and answer this question all by yourself. Doing the work yourself is the only way to really learn this technical stuff!
This looks like a question from a student's coursework. It is impossible to answer it without seeing the diagram(s) referred-to by the question.
The actual diagram is needed to show which components are in any parallel or series paths in the circuit.
If you want someone else to do your homework for you, you will either have to find out how to attach a Related Link to this question, going to a separate web page which shows the diagram(s), or - much better - read your course materials and answer this question all by yourself. Doing the work yourself is the only way to really learn this technical stuff!
It's very easy to draw an electric circuit in Microsoft Word. You just need to open up the graphics menu from the top, and you'll get access to the drawing tools for circuit drawing.
all electric heaters draw a lot of current (voltage times current = watts [or power]) and a toaster heats bread (no it toasts Bread)
The electric heater is basically a resistor, designed to have the right resistance to draw the required current. So a 2 kW heater designed for a 230 v supply is really a resistor of 28.8 ohms, so when it's connected the current is 8 amps and the power is 2 kW.
Current (amps)=Watts/Volts =2000/120 =16.75 =16.75 amps
No, not directly. The supply voltage has to rise or the resistance has to fall to get over-current. If there was a secondary control voltage that was part of a voltage control circuit for a higher voltage, it is conceivable that a voltage drop in control circuit could cause an over-voltage in the supply. Motors are constant power devices, so this could be true for a motor. If you have a 1hp motor (loaded at 1hp), it will want to draw 1hp of power no matter the supply voltage. If the voltage dips, the motor will require more current to keep it spinning at it's normal speed.
It's very easy to draw an electric circuit in Microsoft Word. You just need to open up the graphics menu from the top, and you'll get access to the drawing tools for circuit drawing.
Either a short to ground, or too much current draw in that circuit.Either a short to ground, or too much current draw in that circuit.
voltage/current..source conductor any..of..inductor,resistor,capacitor,,or..all..together logically..simple..circuit.. will..be..closed..conductor..between..moving..magnetic..flux...it..draw..current
Current draw and length.
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.
all electric heaters draw a lot of current (voltage times current = watts [or power]) and a toaster heats bread (no it toasts Bread)
Over load in circuit? Remove starter and have it checked at auto parts for excessive current draw Dead short to ground in circuit? Over load in circuit? Remove starter and have it checked at auto parts for excessive current draw Dead short to ground in circuit?
There is a small current draw taking place to keep the dusk to dawn circuit activated.
Yes I have one that runs on a 30 amp circuit.
A fuse blows when the current draw of the circuit is greater than the capacity of the fuse.
A short circuit will draw a lot of current and produce heat so there is great danger of damage and even fire
Bulbs in a parallel circuit draw the same amount of current, so each will display the same brightness. Bulbs in a series circuit share the current so all bulbs will appear dimmer.