Table of Contents
- 1 Why is there no voltage across the wire?
- 2 What if there is no battery do you think the bulb will light up why?
- 3 Do electrons move in an incomplete circuit?
- 4 What force causes electrons to move?
- 5 Why does the bulb light up in a circuit?
- 6 What will happen if one light bulb is removed from a series circuit?
- 7 What flows in a circuit without voltage?
- 8 What is the difference between voltage and resistance in a circuit?
Why is there no voltage across the wire?
Across the wire, there is no imbalance of electrons, and therefore there is no electric potential energy, and thus no voltage.
What if there is no battery do you think the bulb will light up why?
because the circuit is broken (missing wire), so the electricity cannot flow in a loop back to the battery. The bulb will not light because the switch is off (open). No bulbs will light in this circuit because there is no cell or battery. than one route it can take to flow from the cell and back again.
Do electrons move in an incomplete circuit?
When the wire is not connected, the electrons don’t go anywhere because there isn’t a path for them to flow around. Imagine one end of the wire being connected to the negative terminal of the battery and the other end of the wire brought very close to touching the positive terminal.
Why is voltage the same in a wire?
There is a wire between 1 and 2. That means the resistance is zero or disregardable. Therefore, the current will go from 1 to 2 freely and the voltage will stay the same.
Does voltage change across a wire?
Any length or size of wires will have some resistance, and running a current through this dc resistance will cause the voltage to drop. As the length of the cable increases, so does its resistance and reactance increase in proportion.
What force causes electrons to move?
Voltage is the electrical force that causes free electrons to move from one atom to another. Just as water needs some pressure to force it through a pipe, electrical current needs some force to make it flow. “Volts” is the measure of “electrical pressure” that causes current flow.
Why does the bulb light up in a circuit?
When a light bulb connects to an electrical power supply, an electrical current flows from one metal contact to the other. As the current travels through the wires and the filament, the filament heats up to the point where it begins to emit photons, which are small packets of visible light.
What will happen if one light bulb is removed from a series circuit?
When one light bulb is removed from the series circuit, the other two light bulbs go out. When one part of the series circuit is removed, the circuit is “open”; the other parts do not receive electric energy.
What causes voltage differences in a battery?
In this way, voltage differences are also created by the build-up of charge. More specifically, if you see for example a 12V battery, what that means is that when you connect the ends of the batter via, e.g. a copper wire, the battery will induce an electric field throughout the wire that pushes electrons in one direction along that wire.
What is the relationship between voltage and current?
3 Answers. Voltage, in the most physical way, is a scalar field that determines the potential energy per unit charge at every point in space. Now, you can’t have currents without voltages because if there’s a current there’s a charge moving, and every charge produces a voltage, but you can have currents without voltage differences in space.
What flows in a circuit without voltage?
What flows is not the voltage but the charge, and that flow is called current. There can be voltage without a current; for instance if you have a single charge, that charge induces a voltage in space, even if it’s empty.
What is the difference between voltage and resistance in a circuit?
Voltage refers to the difference in charge between the two points. Current refers to the flow of electrical charges. Resistance refers to the measure of opposition to the flow of current. It can only occur in a closed circuit in order for the charges to flow, while an open circuit would stop the flow throughout the entire circuit.