B.
The voltmeter has an internal resistance, which should be as high as possible. As this resistance draws current from the circuit under test, it will affect circuit operation. This is more pronounced in a high impedance circuit because the current drawn flows through higher resistances.
In an electrical circuit ,, resistance is the force that resists the flow of electricity thru the circuit .. this is used in light bulbs to create the heat and light that we expect from the bulb .. and heat in a toaster fron the resistance in a wire making it hoy enough to cook the surface of the bread
NO
well it doesnt
It increases the mass.
It completes the circuit so electricity can flow through.
Well, the neutron has a negative charge so really it doesn't affect this question at all.
by adding resistance in parallel more current is bound to flow
by adding the the resistances in series the total resistance of the circuit increses and thus the crunt flowing in the circuit decrese. Ans 2 . the current in series circuit of constant resistance will always be the same . It will not effect the current .
As long as the voltage between the ends of the circuit remains constant, the current through the circuit is inversely proportional to the total effective resistance of the circuit.
Static electricity can affect your PC by erasing/corrupting your stored data. The most common way of damaging a USB storage device is through common static electricity.
Yes, static electricity does affect objects.
In a series circuit, all the current passes through the one circuit. Any break will totally remove power from all of the circuit.Parallel circuits have more than one branch where the current can flow. A broken wire will only affect one part, the rest of the circuit will still pass current.In a series circuit, all the current passes through the one circuit. Any break will totally remove power from all of the circuit.Parallel circuits have more than one branch where the current can flow. A broken wire will only affect one part, the rest of the circuit will still pass current.
It reduces the current. As the current travels through the resitors it has some current that is left in the resistor. And
I'm sorry, but food is not usually associated with voltage. Voltage, actually electro-motive force, is a measure of the "pressure" of electricity in a circuit. (You can measure EMF in Volts where there is no closed circuit, but the voltmeter itself provides a closed circuit during measurement).
In a series circuit, there is just a single path . In a parallel circuit, there are two or more branches, creating separate pathways along which electrons can flow, so a break in one branch does not affect the flow of electricity in the others.
The brightness of the lights may or may not change depending on the circuit in which they are wired. In a series circuit, all the bulbs (called lamps) will experience the same current flow. The same amount of current will be flowing through each one, and each one will be dropping some amount of voltage. If we remove some of the lamps and reconnect the circuit, the lamps will glow brighter because there is less total resistance in the circuit. The remaining lamps will end up dropping more voltage, and will glow brighter. In a parallel circuit, removing bulbs (or adding them) will not affect the operation of the other lamps in the circuit (providing the voltage source is adequate). We know that each of the lights in a household circuit is wired in parallel, and turning one or more on or off won't affect the operation (the brightness) of any other light that is on.