A continuous unbroken path of electrons is a closed circuit. If there is an opening, then it is an open circuit.
Continuous.
current is produced.
D electrons exist in - This statement is not true about Bohr's model of the atom because Bohr proposed that electrons move in quantized orbits around the nucleus, rather than existing as continuous particles.
That path might be called a circuit. If the path is complete, it's a closed circuit.
A continuous unbroken path of electrons is a closed circuit. If there is an opening, then it is an open circuit.
a path of continuous electrons. may include switch but must have load or will short circuit.
what kind of electricity is caused by a continuous flow of electrons
Continuous.
When any conducting material is connected to provide a continuous path between the two terminals of a battery, electric current flows through it. On the microscopic level, electric current is really the flow of electrons, from the battery's negative terminal, through the conducting path, to its positive terminal.
Niels Bohr
To create a continuous path for electric current, you need a closed circuit that includes a power source (such as a battery or generator), conductive materials for the current to flow through (such as wires), and a load (such as a light bulb or motor) to utilize the electrical energy. When these components are connected in a loop, the electric current can flow continuously.
current is produced.
D electrons exist in - This statement is not true about Bohr's model of the atom because Bohr proposed that electrons move in quantized orbits around the nucleus, rather than existing as continuous particles.
That path might be called a circuit. If the path is complete, it's a closed circuit.
A closed circuit ensures that there is a continuous path for the flow of electrons, allowing a complete transfer of energy. When the circuit is open, there is no complete path for the energy to flow, resulting in a disruption of the transfer process.
Bohr