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Usage Examples
Filter by Meaning The electric current in the circuit is measured in amperes.
The motor requires 2.5 amperes to operate efficiently.
The battery is capable of delivering 2 amperes of current for 4 hours.
The electrician measured the current in the wire and found it to be 10 amperes.
The lightbulb requires 1.5 amperes of current to function.
The power supply unit can deliver up to 5 amperes of current to the motherboard.
The amperes produced by the generator are used to power the entire facility.
The ammeter reads the current in the circuit in amperes.
The motor requires 5 amperes of current to operate efficiently.
The circuit breaker tripped when the current exceeded 20 amperes.
The electrician checked the amperes to ensure that the appliance was working correctly.
The voltage of the circuit is 120 volts, and the amperes flowing through it are 10.
The power supply unit can provide a maximum of 12 amperes of current.
The electrician measured the amperes and voltage of the circuit.
The electrical current in the circuit was measured in amperes.
The motor requires a minimum of 3 amperes to operate.
The power consumption of the device is 2 amperes at 120 volts.
The electrician measured the current in the wire with an ammeter and found it to be 5 amperes.
The wire can handle up to 15 amperes of current.
The current in the wire was measured at 3 amperes per second.
The power supply unit can deliver a current of 5 amperes at 12 volts.
The amperes in the circuit were measured to ensure that it would not overload.
The machine requires 10 amperes of electricity to operate.
The appliance uses 5 amperes of electric current to function.
The power supply provides 12 volts and 2 amperes of current.
The electric fence was designed to deliver a current of 0.1 amperes.
The power supply can deliver up to 30 amperes of current.
The battery can supply a maximum current of 50 amperes for a short period.
The engineer calculated the amperes needed to power the entire factory.
The solar panel generates 3 amperes of current in direct sunlight.
The electrician measured the amperes using a clamp meter.
The device consumes 0.5 amperes of electricity when in standby mode.
The light bulb requires a current of 0.5 amperes to function.
The household circuit breaker trips when the current exceeds 15 amperes.
The engineer calculated the amperes needed to run the new machine, and designed the circuit accordingly.
The electrician used an amperes meter to troubleshoot the problem.
The electric car's battery has a capacity of 50 amperes per hour.
The wire was designed to carry a maximum of 5 amperes of current.
The welding machine requires 200 amperes of current to operate.
The electric stove draws 40 amperes when all burners are on.
The electrician checked the amperes in the wires before connecting them to the outlet.
The fuse blew because there were too many amperes in the circuit.
The battery can supply up to 50 amperes of current.
The musician used a guitar amplifier that could handle up to 100 amperes of current.
The electrical appliances in the house draw a total current of 20 amperes.
The electric motor requires 15 amperes to operate.
The circuit breaker is designed to trip if the current exceeds 20 amperes.
The circuit breaker is rated for a maximum of 20 amperes.
The electrical engineer calculated the amperes required for the motors to run smoothly.
The power supply can handle up to 5 amperes of current.
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