It is usually controlled by a computer, controlling the intensity of a heating lamp bulb, based on a temperature sensor built within connecting to the computer (for expensive incubators, that is.)
The light bulb can be controlled on a timer, or simply manually switched on and off. The heat can be controlled by using a thermostat. Some bulbs also provide both light and heat, and by raising the bulb the heat can be approximately controlled.
It is usually controlled by a computer, controlling the intensity of a heating lamp bulb, based on a temperature sensor built within connecting to the computer (for expensive incubators, that is.)
The source of warmth in an incubator usually comes from a light bulb. There is sometimes also a fan to move the heat from the bulb around inside the unit.
The source of warmth in an incubator usually comes from a light bulb. There is sometimes also a fan to move the heat from the bulb around inside the unit.
An incubator provides a controlled and warm environment for eggs to develop and hatch. The warmth in an incubator is usually produced by a heating element or a heat lamp. This consistent temperature helps mimic the conditions necessary for successful egg incubation, promoting healthy development of the embryos inside the eggs.
A light bulb converts electrical energy into light energy and heat energy.
Light and heat.
does the vessel where the light bulb is placed affect the heat
Light+Heat
light and heat energy occur in a light bulb when it is turned on.
A light bulb can make heat and light.
The energy that goes in is electrical energy; the energy that leaves it is visible light, as well as heat.