no
When you slowly squeeze and release the bulb filled with water, you will observe that the water inside the bulb will be pushed outwards when squeezed and then flow back into the bulb when released. This is due to the pressure exerted on the water inside the bulb, causing it to move in and out of the bulb.
In most cases a cfl bulb can be replaced with an incandescent bulb as long as the base matches. for an example: if a cfl bulb has a GU24 base an incandescent bulb will not work! Also, ensure the wattage of the bulb does not exceed manufacturers rating.
No. The bulb has to match the ballast wattage exactly. And you can't interchange different lamps (like metal halide) either. The ballast is specific to that wattage and lamp type. The bulb will either burn out quickly or just not work properly at all
You need the appropriate ballast for either of these bulbs to make them light.
The Zone in a loaded soil mass bounded by any arbitrary isobar is known as a pressure bulb. The vertical pressure at any point on the surface of the pressure bulb is the same.
no
1000 Pa
If you squeeze the bulb to expel most of the air, then release it with the tip under water, the pressure in the bulb drops and external air pressure on the surface of the liquid in its container forces the liquid into the dropper. When you squeeze the bulb again, you increase the pressure and force the liquid out.
no
The 400W high pressure Sodium bulb contains a silver lining inside the frame to give better reflection of light. However, no silver is found inside the bulb.
No, you can not use a 150 watt high pressure sodium bulb with a 70 watt ballast.
NO it has to do with the sense of smell
Shape: The pressure bulb is typically depicted as a three-dimensional shape, often resembling an inverted cone or pyramid. It extends downwards from the base of the loaded area or foundation into the soil. Distribution: Within the pressure bulb, the pressure is not uniformly distributed. It is highest at the base of the loaded area and decreases with depth. The pressure distribution is influenced by factors such as the shape and size of the foundation, the load magnitude, and the properties of the soil. Depth: The depth of the pressure bulb varies depending on the characteristics of the foundation and the soil. Deeper foundations will have deeper pressure bulbs.
G
How you do this is to place the bulb under twice as much pressure than it is currently at. Slowly increase the pressure and then increase the temperature by 21 degrees celcius. Once you have done all of this, dip the bulb in paint that contains mercury
The pulse glass contains a volatile liquid and vapor at low pressure. Warm one bulb in your hand and the increased vapor pressure will force the liquid into the other bulb and appear to boil.