Difference Between Soft White vs Daylight LED
It is no longer news that light bulbs contribute to climate change when in use; this is caused by the carbon dioxide emitted by power plants that do not utilize renewable energy. Carbon dioxide, other emissions, and the resulting greenhouse effect are known to bring about detrimental side effects to our environment (in the form of climate change), health (especially our respiratory health), and our planet.
In order to curb this serious problem, scientists have developed advanced light bulbs that can emit a good amount of light with very negligible energy consumption. Understanding the difference between soft white and daylight LED light bulbs will help you make the right choice for your home and do the little you can to protect our planet.
Definition of Soft White LED
A soft white LED is an electrical light designed to mimic the glow of the old incandescent lamps but with lower heat emission and color temperature within the range of 2700 to 3000K. The idea behind this development is to have an efficient light source that emits softer hues without bringing about a lot of energy consumption in return.
The reddish-yellow color makes this device suitable for any environment where less light is required. Places like bedrooms, dining rooms, restaurants, etc. This is because it creates the feeling of coziness and warmth, which fosters relaxation. Generally, the soft white LED produces lower color temperature, lower intensity, warmth, and helps with relaxation.
Definition of Daylight LED
A daylight LED light is a bright electrical light designed to mimic the light of day with a color temperature in the range of 5000 to 6500K. Comparing the soft white vs daylight LED, the most noticeable difference is in the color they produce, which is directly linked to the temperature.
The former is somewhat unimposing and calm, but the latter is a bit more intense like the light of day or just like opening the curtains to let in light to wake someone up.
As is expected of all LED lights, this device does not consume much energy or significantly contribute to climate change through energy usage. So, it is great for the environment, our health, and the planet in general. It is better suited for places where brightness is required, places like the kitchen, library, basement, and so on. It is also ideal for recording videos or taking photoshoots because of its ability to properly illuminate an object.
Interestingly, this light can match the color temperature of the sun, which is 5600K, but it does not emit heat, which is a good thing, to put it lightly.
Main Differences Between Soft White vs Daylight LED
Now that you have a fair idea of these two and how they work, you may also want to know the specific differences between them. The table below is a graphic representation summarizing the daylight vs soft white LED light bulb comparison.
| Basis of Comparison | Soft White LED | Daylight LED |
| Definition | An electrical light designed to mimic the glow of the old incandescent lamps but with lower heat emission and color temperature within the range of 2700 to 3000K | A bright electrical light designed to mimic the light of day with a color temperature in the range of 5000 to 6500K |
| Hue | Soft, warm, and yellowish | Imposing, cool, and bluish-white |
| Application | Ideal for dining rooms, bedrooms, living rooms, etc. | Ideal for basements, kitchens, bathrooms, etc. |
| Effect | A relaxing effect, which is good for sleeping | Wakefulness, which helps increase focus when performing certain tasks |
| Design | Mimics the old incandescent lamps | Mimics natural daylight |
| Lifespan | Fairly long-lasting light bulb | Wears out faster in comparison |
Difference Between Soft White and Daylight LED: Conclusion
The difference between daylight and soft white LED is quite apparent in its appearance, effects, and color temperature. When it comes to economic benefit, the latter has the upper hand because it does not need as much power to function.
That notwithstanding, they are both similar in the sense that they are both energy efficient and have the potential to fundamentally change the future of lighting in the United States and the world at large.
