1AU = ?

The distance from the Sun to the Earth is 1 AU = 1.5xx10^(11) . The speed of light is 3xx10^(8)ms^(-1) . Express the speed of light in terms of (a) AU per minute and (b) AU per second.

If the mean distance of Jupiter from sun is about 5 AU, to complete one revolution time taken by Jupiter is (1 AU = mean distance of earth from the sun)

Suppose we invent a unit of mass which we shall call the caendish (C). One cavendish of mass is defined such that G = 1.0000(AU)^(3)//(yr^(2)C) . Our unit of length is the astronomical unit (AU) , the earth-sun distance -1AU = 1.496 xx 10^(11) m - and our unit of time is the year (yr) . (a) Datermine the conversion factor between C and kg. (b) Find the mass of the sun in C.

The radius of the earth s orbit around the sun is 1 A . U. Calculate the angular velocity and linear velocity of the earth. Also calculate the angle through which the earth revove around the sun in 4 4 days. ( Given 1 AU= 1.5 xx 10 ^(11)m0

Let A = [(1,0,0), (2,1,0), (3,2,1)], and U_1, U_2 and U_3 are columns of a 3 xx 3 matrix U . If column matrices U_1, U_2 and U_3 satisfy AU_1 = [(1),(0),(0)], AU_2 = [(2),(3),(0)], AU_3 = [(2),(3),(1)] then the sum of the elements of the matrix U^(-1) is

1 AU. is equal to

Give approximate ratio of 1 AU and 1 light year.

Emf of the cell Ni| Ni^(2+) ( 0.1 M) | Au^(3+) (1.0M) Au will be E_(Ni//Ni(2+))^@ = 0.5=25. E_(Au//Au^(3+))^@ = 1.5 V .

A certain planet's year is 8 times the earth's year. Find the distance of this planet from the sun if the distance of the earth is 1 AU from the sun.