A common example of resistive heating is an electric stove burner. When electricity flows through the resistor in the burner, it encounters resistance which in turn produces heat. Another example is an electric space heater, where electricity passes through a resistive element, generating heat that warms the surrounding air.
A resistive load is designed to produce heat by opposing the flow of electric current. This type of load converts electrical energy into heat energy through the resistance it offers to the current passing through it. Examples include heating elements in appliances like toasters and electric stoves.
A filament lamp produces light by converting electrical energy into heat and then light. It acts as a resistive load in the circuit, meaning it resists the flow of current and causes the filament to glow and produce light.
The power of a 1200 watt hair dryer is 1.2 kilowatts. This conversion is done by dividing the wattage by 1000.
The resistive force you have to overcome to get an object moving is called static friction. Static friction is the force that opposes the initiation of motion between two surfaces in contact when there is no relative motion between them. Once the object is in motion, the resistive force changes to kinetic friction.
It is resistive much load
resistive loadAnswerIf the current is driving a motor, then the load is resistive-inductive.
The PF will increase
No, a geyser is a resistive load.
the filament is made of tunguston which is having high resistance value,Hence it's resistive load
specification of inductive load,capactive load,resistive load in laboratory
No load is the least destructive load to a switch.
Inductive since it has a motor with windings.
When using a resistive load bank to test a generator, it does not matter if you load the generator to its kW or kVA rating, because those two numbers are the same when considering a resistive load. Power factor, which is the difference between true and apparent power, only comes into play when there is a reactive (inductive or capacitative) load.
Some examples of resistive loads are: heaters, incandescent lights, fans etc.
the ampere i=0is theonlyedge where the e0b and e0c can come together and share the load and that way the two vector diagrams will connected and the load will be less resistive and more on the ek0 and c73 resistive load. the 38f93 relay will be the one to break the load 2u3 and e0b and e0c into diffrent components that will be drawn in the diagram.
The maximum load for resistive devices is 1800W, while for tungsten devices it is 600W. This means that devices with resistive load can safely draw up to 1800W of power, while devices with a tungsten load should not exceed 600W to prevent damage to the equipment and ensure safety.