That is not possible a full kettle has more water,therefore it will take longer to boil.
"Gibbous" . . . less than full but more than half illuminated.
After the full moon, we see less and less of the sunlit side.
The size of the moon doesn't change, but the amount of its illuminated half that we see does change. "Crescent" is the shape of less than a half-disk. "Gibbous" is the shape of more than a half-disk but less than a full disk. So the gibbous is larger than the crescent, whether waxing or waning.
first quarter moon http://www.wolframalpha.com/input/?i=moon+8pm+december+5+2008
A full-wave rectifier will provide an output through both the positive and negative halves of the AC sine wave. The half-wave rectifier will only provide an output for half the cycle. The filtered outputs of both rectifiers can be "smoothed" well, but the higher the load on the half-wave rectifier, the more the output voltage will vary across a cycle of input power. This results in higher ripple and makes regulation a bit more difficult. The full-wave rectifier will provide an output through both the positive and negative halves of the sine wave. It effectively "inverts" the negative half of the cycle and provides two "pulses" of power per cycle as opposed to one pulse per cycle for the half-wave rectifier. The full-wave rectifier might use a pair of diodes and a center tapped transformer, or might use four diodes in a full wave bridge configuration and a transformer with no center tap.
because it takes less time for the water to boil. I f you put more water in the kettle it will take a longer time for it to boil which takes in more energy
Because there is less water. Because it needs less heat energy. Because the heat energy required to heat something up is the product of mass x (heat capacity) x (temperature difference).
Kettle efficiency refers to how effectively a kettle can convert electrical energy into heat energy to boil water. A kettle's efficiency can be influenced by factors such as the material of the kettle, its insulation, and the design of the heating element. Kettles with higher efficiency tend to boil water faster and use less electricity.
It depends on the battery and the size of the kettle. It also depends on the starting temperature of the water and the air pressure, if you are at higher altitude or lower air pressure it takes less energy to boil the water, and also if the water starts at a higher temperature it takes less energy to boil. Definitely some batteries have enough energy. You'd have to calculate the amount of energy required to boil the water and look at the amp hour measurement on the battery, that tells you the total energy stored in the battery.
Use less water, keep the lid on, use a higher flame, use a thinner pot. Alternatively, use an electric kettle.
It is half-empty!
the full moon is more closer to the sun than the half moon
It is not - I just checked and is is nearly 80% full.
Crescent is the phase that's less than half. Gibbous is the phase that's more than half, but less than full.
The full gallon is a better deal financially. The unit price for the full gallon is 6.1% less than the unit price for the half-gallon.
because the kettle is made of plastic
before it is full: waxing gibbous after it is full: wanning gibbous