parallel
parallel
thomas Paine
Australia and Antarctica are the only continents that have no land connection to another continent. If you count Europe and Asia as two separate continents then they are two connected continents, and North America and South America are connected by way of Central America, leaving Africa, Australia, and Antarctica as the continents that are not connected to other continents. Sometimes we consider Europe and Asia to be a single very large continent called Eurasia.
Paper cutouts of the continents can be pieced together to form a single whole is because the continents were at one point all connected, which was the super continent Pangaea.
The continents fit together like a puzzle. There are also animal and plant species (extinct or extant) present on continents that are not physically connected.
a series circuit
A series circuit is one is which all current is restricted to one path. A good example of a device that is series-connected is a circuit breaker.
Series circuit
Series circuit
The simplest circuit is a single loop of components connected in series; that is, the components are connected head to tail, with the first and last components connected to close the loop and complete the circuit. See the nearby link for the most rudimentary series circuit imaginable.
A circuit in which all parts are connected in a single loop
Because there is only a single path in series circuit and many paths in parallel circuit.
In a single loop circuit (series circuit) this will be an open circuit. If there is a current loop of some type, there's a complete path already, and thus no classification such as open or short circuited. It simply an incomplete circuit.
the complete path that electricity can move through is called
The essential difference between a series circuit and a parallel circuit is the way in which the components are physically connected. In a series circuit there is just a single path that electricity can take, whereas in a parallel circuit there are two or more different paths.
Yes. An example: _____A---------B________ A connected directly to B and D by one path. _____|_______/|\________ B connected directly to A and E by one path, and to C by two paths. _____|______/_|_\_______ _____|_____/___\_|______ _____|__E/_____\|______ E connected directly to B and D by one path. _____|____\_____C______ C connected directly to B and D by two paths. _____|_____\____|\_____ _____|______\___|__\___ _____|_______\__|__/___ _____|________\_|_/____ _____|_________\|/_____ _____-------------D_____ D connected directly to A and E by one path, and to C by two paths. There is an Euler circuit: ABCDEBCDA But a Hamiltonian circuit is impossible: as part of a circuit A can only be reached by the path BAD, but once BAD has been traversed it is impossible to get to both C and E without returning to B or D first. However there is a Hamiltonian Path: ABCDE.
Circuit