I believe it means Before
Take the BC year and add it to the AD year with present year and bc & ad
AC refers to electrical current, so I think you mean AD (Anno Domini, "In the Year of the Lord").There is no gap at all between dates Before Christ (BC) and dates AD. Nor is there any year 0 to be deducted, as one lunatic Evangelist minister recently claimed.The sequence would run like this:5 BC, 4 BC, 3 BC, 2 BC, 1 BC, 1 AD, 2 AD, 3 AD and so on.The years AD are reckoned from a presumed date of birth of Christ, not from the date of his death. The presumed birth date is probably incorrect, but that is not relevant to the calculations of the Gregorian calendar.So the calculations of numbers of years are extremely simple: the number of years between 256 BC and 2011 AD (for example) are 256 + 2011 = 2267.____________________________________________________________________Actually, there are 33 years between the B.C. and A.D. calendars. I am still trying to figure out what it was called. i think it was O.D. or something? I know I've heard it before. I do not know if it is documented in something significant like an atlas, but I do know, for sure, that there were 33 years between B.C. and A.D. date records.
* Amenemhat IV (1815 BC to 1806 BC) * Tutimaios (circa 1690 BC)- also known as Dudimose A Hyksos king (circa 1648 BC to 1540 BC) * Ahmose I (1550 BC to 1525 BC) * Thutmose I * Thutmose III (1479 BC to 1425 BC) * Amenhotep II (1427 BC to 1401 BC) * Amenhotep IV, also known as Akhenaten (1352 BC - 1336 BC) * Horemheb (circa 1319 BC to 1292 BC) * Ramesses I (circa 1292 BC to 1290 BC) * Ramesses II (1279 BC to 1213 BC) * Merneptah (1213 BC to 1203 BC) * Amenmesse (1203 BC to 1199 BC) * Setnakhte (1190 BC to 1186 BC
199 to 100bc The first year of the 2nd century BC was 200 BC, and the last year was 101 BC.
This is a list of Egyptian capitals in a chronological order.Thinis (before 2950 BC) the first capital of Upper and Lower EgyptMemphis: (2950 BC - 2180 BC)Herakleopolis: (2180 BC - 2060 BC)Thebes: (2135 BC - 1985 BC)Itjtawy: (1985 BC - 1785 BC)Thebes: (1785 BC - 1650 BC)Xois: (1715 BC - 1650 BC)Avaris: (1650 BC - 1580 BC)Thebes: (1650 BC - c. 1353 BC)Akhetaten: (c. 1353 BC - c. 1332 BC)Thebes: (c. 1332 BC - 1279 BC) Ramesses IIPi-Ramesses (1279 BC - 1078 BC)Tanis: (1078 BC - 945 BC)Bubastis: (945 BC - 715 BC)Tanis: (818 BC - 715 BC)Sais: (725 BC - 715 BC)Napata/Memphis (715 BC - 664 BC)Sais: (664 BC - 525 BC)Sais: (404 BC - 399 BC)Mendes: (399 BC - 380 BC)Sebennytos: (380 BC - 343 BC)Alexandria: (332 BC - 641 AD)Al-Fustat: (641 AD - 750 AD)Al-Askar: (750 - 868 AD)Al-Qatta'i: (868 - 905 AD)Al-Fustat: (905 - 969 AD)Al-Qahira (Cairo): the present capital (969 AD - Present)
yes because ab plus bc is ac
ac is After Christ and bc is Before Christ
It is possible, depending on what on earth AC and BC are!
The probability of ac and bc is 1/5.
A+BC+AC+B=A+BC+AC+B unless any of these variables has an assigned value.
BC
it would be C because C is the last letter in ac and bc
associative? single replacement
All the trigonometric functions are derived from the right angled triangle. If we consider the three sides (AB, BC, CA) of a triangle and the included angle. There is a possibility of getting six functions based on the ratios like AB/AC, BC/AC, AB/BC, BC/AB, AC/BC, AC/AB . So we will have six trigonometric functions
AC=5 AB=8 A=1 B=8 C=5 BC=40
The point B lies between points A and C is the distances AB, BC and AC are related by:AB + BC = AC.
C is the midpoint of Ab . then AC = BC. So AC= CB.