When you move a battery closer to a circuit, it can create a potential difference that may influence the circuit's electrical behavior. If the circuit is designed to connect to the battery, bringing it closer can facilitate a connection, allowing current to flow and powering the circuit. However, if the circuit is not designed to connect to the battery, there may be no effect. The battery's proximity alone doesn't change its stored energy; it simply affects the potential for electrical interaction.
It is an oxidation/reduction reaction. Electrons flow from anode to cathode.
Nothing. The reason a circuit works is that there is an imbalance between the positive and negative (cathode and anode) ends of the battery. two positive ends wouldn't move anything.
series circuit can only move on one patha parallel circuit has two more paths for the electric carve to follow
switching on the tourch for example is when as you switch it on it will move the switch connecting it to a circuit that lights up the bulb and when you switch the switch off the switch will move breaking the circuit
A source of voltage, such as a battery or generator, creates an electric potential difference between its terminals. This potential difference drives electric charges, typically electrons, to move through a conductor, generating an electric current. The flow of these charges occurs when a closed circuit is established, allowing the charges to return to the source, completing the circuit. The rate of this flow is determined by the voltage and the resistance of the circuit components.
The bulb will get brighter
It doesn't matter where the bulb is in respect to the battery, as long as the circuit is complete, the bulb will light up.
When you move a bulb closer to the battery in a circuit, it will receive more electrical energy as the resistance decreases. This will cause the bulb to shine brighter due to the increased flow of electrical current passing through it.
the voltage will go down when the anode and cathode are closer together but will go up when they are further apart
A battery supplies energy to move electricity through a circuit (Remember, a circuit is a wire.)
A battery
when a circuit is closed, electricity can move though it.
In a circuit, the energy needed to move electricity is provided by a power source such as a battery or a generator. This power source creates a voltage difference between the circuit's components, which pushes the electric charges to flow through the circuit.
A battery creates an electric field within the circuit, which applies a force on the electrons, causing them to move. This movement of electrons creates an electric current that flows through the circuit, allowing electrical devices to function.
Electricity flows from a battery through a circuit when a complete path is created for the electrons to move. Electrons move from the negative terminal of the battery through the circuit to the positive terminal. This flow of electrons creates an electric current that powers the components in the circuit.
As you move closer to a convex mirror, your image will appear smaller and more upright. The image will also move further away from the mirror.
Electrons flow on a wire when there is a closed circuit that provides a path for the electrons to move. This typically happens when a voltage source (such as a battery) is connected to the circuit, creating an electric field that causes the electrons to move through the wire.