Detailed solution is shown below ask if any doubt
5. 116.66 pointsNoErgStatis1 7.PO50. Determine the surface areas in mm2 and the volumes in mm3 of...
5. 116.66 pointsNoErgStatis1 7.PO50. Determine the surface areas in mm2 and the volumes in mm3 of the bodies of revolution obtained by revolving the bright blue shape one revolution around the following axes. 195 mm 97.5 mnm 195 mm 195 mm (a) the y-axis A- TIm3 (b) the x-axis mm2 mm3 5. 116.66 pointsNoErgStatis1 7.PO50. Determine the surface areas in mm2 and the volumes in mm3 of the bodies of revolution obtained by revolving the bright blue shape one revolution...
Determine the surface areas in mm2 and the volumes in mm3 of the bodies of revolution obtained by revolving the bright blue shape one revolution around the following axes. Determine the surface areas in mm2 and the volumes in mm3 of the bodies of revolution obtained by revolving the bright blue shape one revolution around the following axes 132 mm 66.0 mm 4·132 mm 132 mm (a) the y-axis A : (b) the x-axis
static Determine the surface areas in in and the volumes in in of the bodies of revolution obtained by revolving the bright blue shap one revolution around the following axes. The cutouts on each end are semicircular with 5.8 in. diameter. y 5.8 in 2.9 in 5.8 in 5.8 in (a) the y-axis 127000 A = in2 in3 (b) the x-axis 696000 A = in2 in3 V = Determine the surface areas in in and the volumes in in of...
Determine the surface areas in in2 and the volumes in in of the bodies of revolution obtained by revolving the bright у 3.6 in 1.8 in X 3.6 in 3.6 in (a) the y-axis in 2 in V- (b) the x-axis A- in 2 V - in3 D Edit & Create of revolution obtained by revolving the bright blue shape one revolution around the following axes. The cutouts on each end are semicircular with 3.6 in. diameter
Determine the surface areas in in2 and the volumes in in3 of the bodies of revolution obtained by revolving the bright blue shape one revolution around the following axes. The cutouts on each end are semicircular with 7.8 in. diameter. 7.8 in 3.9 in o 7.8 in 7.8 in (a) the y-axis A = in 2 V = in 3 (b) the x-axis A = in2 V = in 3
Determine the surface areas in in2 and the volumes in in3 of the bodies of revolution obtained by revolving the bright blue shape one revolution around the following axes. The cutouts on each end are semicircular with 3.6 in. diameter. 3.6 in 1.8 in 0 3.6 in 3.6 in (a) the y-axis A = 417.32 Ix in2 X in V = 577.135 (b) the x-axis A = 417.32 x in 2 X in 3 V = 561.86
Determine the volumes in mm of the solids generated by revolving triangular plate ABC (shown) one revolution about the following axes. 250 mm C 300 mm В 200 mm 750 mm (a) the x-axis mm3 (b) the y-axis mm -/25 Points) DETAILS NORENGSTATICS1 7.P.055. Determine the surface area in in and the volume in in or the body of revolution obtained by revolving the blue square one revolution about the a-a-axis. 76" 2.2 in A= in 2
Determine the volumes in mm of the solids generated by revolving triangular plate ABC (shown) one revolution about the following axes. 250 mm С 300 mm 200 mm 750 mm (a) the x-axis 3 mm (b) the y-axis mm3 Determine the surface area in in- and the volume in in of the body of revolution obtained by revolving the blue square one revolution about the a-a-axis. 76 2.2 in in 2 V- in
Determine the volumes in mm3 of the solids generated by revolving triangular plate ABC (shown) one revolution about the following axes. 105 mm 126 mm B 84 mm A 315 mm (a) the x-axis mm 3 (b) the y-axis mm3
Determine the areas in mm2 of the surfaces generated by revolving the bent wire ABC (shown) one revolution about the following axes. y 85 mm 102 mm B 68 mm X 255 mm (a) the x-axis mm2 (b) the y-axis mm2