It is: 1.3*10^4 in scientific notation
The answer depends onwhat you wish to do with the number(s) in scientific notation andwhat you consider to have been step 1.
The scientific notation for 142,000 s is: 1.42 × 105s
It is: 2.34*10^4 s
8.0 x 104 Put the period after the first number which isn't a 0, then add x 10 with the number of 0's necessary to put the number back to 80,000, which is 4.
4.38904 × 105
Usually numbers are rounded to numbers, not letters.
The answer depends onwhat you wish to do with the number(s) in scientific notation andwhat you consider to have been step 1.
The nuclide notation of a sulfur ion would include the element symbol (S) followed by the mass number and charge. For example, the nuclide notation for a sulfur ion with a charge of +2 would be ^32S2+.
Unary or base one notation is also called tally notation-- it uses only one digit, say 1, and the number of 1's represents the number. In this notation, 1 in one 11 is two 111 is three 1111 is four 11111 is five 111111 is six and so on.
The scientific notation for 142,000 s is: 1.42 × 105s
Rubidium has an atomic number of 37, making it an alkali metal. This means that its last shell is an s with only one electron. The full notation is [Kr] 5s1.
Rudolf Benesh has written: 'An introduction to Benesh dance notation' -- subject(s): Dance notation 'An introduction to Benesh movement-notation: dance' -- subject(s): Dance notation
it is an atom
S(n)
Graham's number is an extremely large number that is often described using recursive mathematical notation. The number of zeros in Graham's number is so large that it cannot be expressed in standard notation. The number itself is so vast that it exceeds the total number of particles in the observable universe.
Alan Salter has written: 'Perspectives on notation' -- subject(s): Dance notation, Movement notation 'The curving air' -- subject(s): Dance, Study and teaching
Thomas S. Reed has written: 'Directory of music notation proposals' -- subject(s): Musical notation 'The Schrock family'