Answer: Most historians believe the Renaissance was an ideological precursor to the Protestant Reformation. Consequently, the two movements bear many similarities. Two major similarities are the emphasis on the individual person and classical languages. … They also placed a renewed emphasis on the Greek language and culture
Explanation:
Answer:
on grounds of 'Equal Protection' laws of the 14th Amendment.
Explanation:
Both Brown V. Board of Education and parents involved in Community Schools v. Seattle presented their case on grounds of 'Equal Protection' laws of the 14th Amendment.
In Brown V. Board of Education, the court ruled that 'separate but equal' was an unconstitutional provision and that the practice of segregation was 'inherently unequal'. It further ruled out that these unequal provisions violated the equal protection laws.
Similarly, the parents involved in Community Schools v. Seattle claimed and argued that racial tiebreaker in district schools subjugated and infringed 'Equal Protection' laws of the 14th Amendment.
Though the initial plan of the racial tiebreaker system was to prevent racial imbalance in schools, the court adjudged that the system was unconstitutional because it, more or less, contributed to unequal opportunity in getting admissions.
Untrustworthy because they turned their back on him.
Answer:
Option (A)
Explanation:
The Ultraviolet lights are referred to as electromagnetic radiation that is comprised of wavelength ranging from 10 nm to about 400 nm (nanometer). The wavelengths of these UV rays are comparatively shorter in comparison to the wavelength of the visible light.
On the other hand, the infrared lights are the radiations that are comprised of wavelength ranging from about 700 nm to 1 mm (millimeter). These infrared lights have a higher wavelength in comparison to the visible light.
Those lights that are comprised of wavelength higher and shorter than the visible light wavelength are not visible to the naked eye. Human eyes respond to the light only between red and violet light of the electromagnetic spectrum.
Thus, the correct answer is option (A).
