Single- and Multi-Cell Formulas
A single-cell formula is applied to a single cell while a multi-cell formula is applied to a range of cells as a group.
A10
contains SIN(0.3)
, the result stored in that cell is 0.295520207
. A10:A12
contains SIN(0.3)
, the result stored in each of those cells is 0.295520207
. A10
contains SIN({0.3,0.4,0.5})
, the result stored in that cell is 0.295520207
(SIN(0.3)
). When a multi-cell formula results in multiple values (such as when the multi-cell formula is array-entered), the designated cells take on corresponding values, according to the shape of the cell group and the values. Specifically,
If the cell group and values have the same shape (i.e., the same number of rows and columns), each cell takes on the value corresponding to its relative position.
If the cell group has fewer columns than the values, the left-most columns of the values are stored in the cells.
If the cell group has fewer rows than the values, the top-most rows of the values are stored in the cells.
If the cell group has more columns than the values, each cell takes on the value corresponding to its relative position, except that
For a cell group 1xN array or a two-dimensional array, the excess right-most cells take on an unspecified value.
For a cell group Nx1 array, the excess columns are clones of the first column.
If the cell group has more rows than the values, each cell takes on the value corresponding to its relative position, except that:
For a cell group Nx1 array or a two-dimensional array, the excess bottom-most cells take on an unspecified value.
For a cell group 1xN array, the excess rows are clones of the first row.
Case 2: The 1x2 group of cells A20:B20
has applied to it the formula SIN({0.3,0.4,0.5})
. The number of columns in the group is less than the number of columns in the result. (The number of rows is the same in each.) Those cells then contain 0.295520207 and 0.389418342, which correspond to SIN(0.3)
and SIN(0.4)
, respectively, the left-most part of the set of values.
Case 3: The 1x4 group of cells A20:D20
has applied to it the formula SIN({0.3,0.4,0.5})
. The number of columns in the group is greater than the number of columns in the result. (The number of rows is the same in each.) Those cells then contain 0.295520207, 0.389418342, 0.479425539, and an unspecified value, which correspond to SIN(0.3)
, SIN(0.4)
, and SIN(0.5)
, respectively, with the fourth value being unspecified.
Case 4: The 2x2 group of cells A30:B31
has applied to it the formula SIN({0.1,0.2,0.3})
. The number of columns in the group is less than the number of columns in the result. As a result, the cells in row 30 contain 0.295520207 and 0.389418342, which correspond to SIN(0.3)
and SIN(0.4)
, respectively. The number of rows in the group is greater than the number of rows in the result, so the cells in 31 are a copy of the cells in row 30. The left-most part of the set of values is propagated into the cells.
Case 5: The 2x2 group of cells A40:B41
has applied to it the formula SIN({0.1,0.2,0.3; 0.4,0.5,0.6; 0.7,0.8,0.9})
. The number of columns in the group is less than the number of columns in the result. As a result, the left-most column values are stored. The number of rows in the group is less than the number of rows in the result. As a result, the top-most column values are stored. ]