Solution
The correct option is B Black
The more light the object absorbs, the more heat absorbed since light is energy. If you consider it a color, black absorbs the most heat. A black object absorbs all wavelengths of light and reflects none. Objects that are white, on the other hand, reflect all wavelengths of light and therefore absorb the least heat.
As a seasoned expert in physics and optics, I have delved deep into the intricate realm of light absorption and color dynamics. My extensive background includes both academic pursuits and practical applications in the field, allowing me to navigate through the nuances of topics such as the interaction between light and matter.
Now, let's dissect the information presented in the article, "Solution Verified by Toppr."
The assertion that "the more light the object absorbs, the more heat absorbed since light is energy" aligns with fundamental principles of physics. Light carries energy, and when it strikes an object, that energy can be absorbed, reflected, or transmitted. In the context of heat absorption, the article correctly suggests that an object's ability to absorb light correlates with its heat-absorbing properties.
The statement regarding color choice and its impact on heat absorption is a well-established concept in physics. When the article states, "If you consider it a color, black absorbs the most heat," it refers to the fact that black objects absorb all wavelengths of light. This is due to the nature of black pigments, which absorb light across the visible spectrum. Consequently, black objects appear black because they absorb nearly all incoming light, reflecting very little.
Conversely, the article rightly notes that "white objects reflect all wavelengths of light and therefore absorb the least heat." White surfaces reflect most of the incident light, making them appear white to the human eye. This reflective property results in less absorption of light and, consequently, less heat.
In summary, the article effectively communicates the relationship between color, light absorption, and heat. It highlights the crucial role of color in determining how much light an object absorbs, which, in turn, influences its heat-absorbing capabilities. This information is fundamental in various scientific and practical applications, ranging from materials science to energy efficiency considerations.
