Hewlett Software Corporation has a $1,000 par value bond outstanding with 20 years to maturity. The bond carries an annual interest payment of $110 and is currently selling for $1, 080 per bond. Hewlett is in a 35 percent tax bracket. The firm wishes to know what the aftertax cost of a new bond issue is likely to be The yield to maturity on the new issue will be the same as the yield to maturity on the old issue because the risk and maturity date will be similar a. Compute the approximate yield to maturity( formula 11-1)on the old issue and use this as the yield for the new issue Make the appropriate tax adjustment to determine the aftertax cost of debt Solution: Hewlett Software Corporation Principal payment- Price of the bond Annual interest payment Number of years to maturity 6(Price of bond)+ 4 (Principal payment) $l10+ $1,000-$1,080 20 6($1,080)+4($1000 $l10+ $80 20 $648+$400 $l10-$4 $l.048 $106 =10.11 $l,048 iby The McGraw-Hill CoCopyright © 2005 by The McGraw-Hill Companies, Inc. S-387 11-7. Hewlett Software Corporation has a $1,000 par value bond outstanding with 20 years to maturity. The bond carries an annual interest payment of $110 and is currently selling for $1,080 per bond. Hewlett is in a 35 percent tax bracket. The firm wishes to know what the aftertax cost of a new bond issue is likely to be. The yield to maturity on the new issue will be the same as the yield to maturity on the old issue because the risk and maturity date will be similar. a. Compute the approximate yield to maturity (Formula 11-1) on the old issue and use this as the yield for the new issue. b. Make the appropriate tax adjustment to determine the aftertax cost of debt. Solution: Hewlett Software Corporation a. .6 (Price of bond) .4 (Principal payment) Number of years to maturity Principal payment Price of the bond Annual interest payment Y' + − + = ( ) ( ) 10.11% $1,048 $106 $1,048 $110 $4 $648 $400 20 $80 $110 .6 $1,080 .4 $1,000 20 $1,000 $1,080 $110 = = − = + − + = + − + =