2.0638
No. It is an accepted estimation. Pi is an irrational number that continues on for forever, or at least no man or computer has found a pattern.
3000 x 5 = 15,000 so possibly.
26/9! Which is equal to 2 8/9, or estimated to three decimal 2.889
16x3=48 48+23=71 71/3=23.7 if estimated it goes 24
One foot is equal to 30.48 centimetres. Therefore, 5 feet is equal to 5 x 30.48 = 152.4 centimetres.5 feet=152.4 centimetersan estimated 30cm to a foot makes about 150cm in 5 ft
No, estimated tax payments do not have to be equal, but they should be based on your expected income for the year to avoid penalties.
No, quarterly estimated tax payments do not have to be equal. They can vary based on changes in income or deductions throughout the year.
Less or equal to 7.5%/ ------------------------ After CIA World Fact Book (estimation for 2005) and Nation Master (also an estimation for 2005) the value was 25 %; now, in 2010 the situation is of course worse.
That is correct 5 miles is about 8 km
(3+0.1)x(5-0.1) = 15 +0.2 - 0.01 = 15.19
No. It is an accepted estimation. Pi is an irrational number that continues on for forever, or at least no man or computer has found a pattern.
Estimated is like taking a guess as to what the answer would be. Example: 597 + 635 estimated 600 + 600 = estimated guess 1200 with the correct answer being 597 + 635 = 1232 For estimated 345 it could be estimated at 300 or 400
No, estimated taxes do not have to be equal for all income sources. Taxes can be calculated separately for different types of income, such as wages, self-employment income, and investment income. Each source of income may have different tax rates and requirements for estimated tax payments.
No, quarterly tax payments do not have to be equal. They are based on your estimated income for the year, so each payment can vary depending on your earnings.
41.25
The first estimation of the speed of light was based on observations of the motion of Jupiter's moon Io by the Danish astronomer Ole Rømer in 1676. He noted that the apparent orbital period of Io varied depending on the Earth's distance from Jupiter, concluding that this discrepancy was due to the finite speed of light. Rømer estimated that light took about 22 minutes to travel a distance equal to the diameter of Earth's orbit around the Sun, leading to an approximate speed of 220,000 kilometers per second. This was the first quantitative estimate of light's speed, laying the groundwork for future measurements.
3000 x 5 = 15,000 so possibly.