i dont know either
Both "Thank You, Ma'am" by Langston Hughes and "The Circuit" by Francisco Jimenez explore themes of compassion and forgiveness. They both depict instances where characters show kindness and understanding towards others despite difficult circumstances. Additionally, both stories emphasize the importance of second chances and the power of human connection.
That is the usual spelling of the Hispanic surname Jimenez (Jiménez). A similar name is Ximénez.
Not similar at all. They are opposites.
blood circulatory system is similar to an electric circuit
There is no specific information available about Langston Hughes' weight. Such details are personal and often not widely documented.
i need help
they both provide one path
No. No load and short circuit is not similar. No load can be 1) Either open circuit i.e. Only Potential is available and load is not connected 2) Load (i.e. motor etc ) is connected but not working with full load or full capacity. In this case the current will flow through the circuit depending on the load. It means No load condition is a condition where no current or a small ( relative / comparative term) current is flowing through the circuit. In Short circuit the load side resistance/ impedance become so less that very high amount of current is passing through circuit.( The protection is therefor required for any circuit) No load and and short circuit is not similar. Thanks
Water always flow from height to bottom mean high potential level to low potential level same happens in electrical circuit.
It creates an extra load to the circuit if placed parallel to other circuits. this load approaches the equivalent of a short circuit as the resistance value placed there reduces.
Most circuit designers usually choose capacitors over inductors to perform similar tasks
On one hand you don't want to search for the absolute cheapest circuit breaker you can find.On the other this is a competitive business and most circuit breakers have similar quality and price ranges
Of course it depends entirely on the ohm's resistance of the resistor. The higher the resistance, the lower the comparison to a short circuit.