true
They are identical values.
150 mmwhich is greater 15 centimeters or 150 millimeters
Neither is. Their values are identical.
Where is the decimal point??? Otherwise as written 65 > 6
Yes, if K<0. No otherwise.
In an ordinary annuity, the payments are fed into the investment at the END of the year. In an annuity due, the payments are made at the BEGINNING of the year. Therefore, with an annuity due, each annuity payment accumulates an extra year of interest. This means that the future value of an annuity due is always greater than the future value of an ordinary annuity.When computing present value, each payment in an annuity due is discounted for one less year (because one of the payments is not made in the future- it is made at the beginning of this year and is already in terms of present dollars). This will result in a larger present value for an annuity due than for an ordinary annuity, as well.
In an ordinary annuity, the annuity payments are fed into the investment at the END of the year. In an annuity due, the payments are made at the BEGINNING of the year. Therefore, with an annuity due, each annuity payment accumulates an extra year of interest. This means that the future value of an annuity due is always greater than the future value of an ordinary annuity.When computing present value, each payment in an annuity due is discounted for one less year (because one of the payments is not made in the future- it is made at the beginning of this year and is already in terms of present dollars). This will result in a larger present value for an annuity due than for an ordinary annuity, as well.
greater than that between ordinary siblings reared together.
They are identical values.
Neither. They are identical volumes.
They appear to be identical, therefore equivalent.
The greater the surface area, the greater the rate of evaporation under identical atmospheric conditions.
They are identical
150 mmwhich is greater 15 centimeters or 150 millimeters
So they can fight for their state.
Neither is. They're identical periods of time.
The buoyant force will be greater on the object in the denser fluid.