<span>eorgia is located in the ___ region of the United States.
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During the first snowfall of the winter, Toni walks outdoor with her warm tea to admire the snowflakes coming down. The snow appears white due to the fact it: reflects the wavelength of visible mild and absorbs none.
Visible mild falls in the vary of the EM spectrum between infrared (IR) and ultraviolet (UV). It has frequencies of about four × 1014 to eight × 1014 cycles per second, or hertz (Hz) and wavelengths of about 740 nanometers (nm) or 2.9 × 10−5 inches, to 380 nm (1.5 × 10−5 inches).
<h3>What is the wavelength range of seen mild in meters?</h3>
The seen mild area stages in wavelengths from about 380 or 400 nm to 700 or 780 nm depending on which supply is used. Q. Visible mild has wavelengths in the range of 400nm to 780nm.
Learn more about wavelength here:
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brainly.com/question/10728818</h3><h3 /><h3>#SPJ4</h3>
Answer:
debriefing
Explanation:
The researcher's disclosing of the true purpose of the study is part of the debriefing process.
Debriefing is a widely used tool to enhance learning through experience. This concept emerged as early as World War II and is widely used today to refer to a researcher's search for correlations through a series of questions or choice that are handed to a volunteer.
Many people today confuse debriefing with conversations that are done informally to meet a person. However, debriefing is beyond this situation and needs to be done with all the necessary formality by presenting an in-depth analysis of all the results of a process.
The correct answer to this open question to this open question is the following.
Although there are no options for this question we can say the following.
Indian mathematics was able to make great advances in the 3rd and 2nd century BCE, in part because of their development of the decimal system and the invention of "zero."
Indians were smart people and great mathematicians. Great Indian mathematicians such as Brahmagupta or Aryabhata, also developed concepts on algebra negative numbers, and trigonometry that are applicable in modern-day mathematics. From India, these concepts spread to other far regions such as the Middle East or China, where other mathematicians and scholars improved these concepts.
