Answer: Islamic–Jewish relations started in the 7th century AD with the origin and spread of Islam in the Arabian peninsula. The two religions share similar values, guidelines, and principles.[1] Islam also incorporates Jewish history as a part of its own. Muslims regard the Children of Israel as an important religious concept in Islam. Moses, the most important prophet of Judaism, is also considered a prophet and messenger in Islam.[2] Moses is mentioned in the Quran more than any other individual, and his life is narrated and recounted more than that of any other prophet.[3] There are approximately 43 references to the Israelites in the Quran (excluding individual prophets),[4] and many in the Hadith. Later rabbinic authorities and Jewish scholars such as Maimonides discussed the relationship between Islam and Jewish law. Maimonides himself, it has been argued, was influenced by Islamic legal thought.[5]
Because Islam and Judaism share a common origin in the Middle East through Abraham, both are considered Abrahamic religions. There are many shared aspects between Judaism and Islam; Islam was strongly influenced by Judaism in its fundamental religious outlook, structure, jurisprudence and practice.[1] Because of this similarity, as well as through the influence of Muslim culture and philosophy on the Jewish community within the Islamic world, there has been considerable and continued physical, theological, and political overlap between the two faiths in the subsequent 1,400 years. Notably, the first Islamic Waqf was donated by a Jew, Rabbi Mukhayriq.[6] And in 1027, a Jew, Samuel ibn Naghrillah, became top advisor and military general of the Taifa of Granada.[7]
Explanation:
Answer:
Elastic clause
Explanation:
the elastic clause is a statement in the U.S. Constitution (Article I, Section 8) granting Congress the power to pass all laws necessary and proper for carrying out the enumerated list of powers.
Africa, Europe, and Asia. Please give me brainliest and have a nice day!
Answer:
Biomechanics is the study of the structure, function and motion of the mechanical aspects of biological systems, at any level from whole organisms to organs, cells and cell organelles, using the methods of mechanics.
