div class=ts-pagebuttonPage 1button div class=ts-image a href=https:reader039vdocumentssitereader039viewer20220225195b16d2507f8b9a726d8de6eahtml5page1jpg target=_blank amp-img class=ts-thumb alt=Page 1: enggportalfileswordpresscom · Derive the expression for the hoop stress in a thin cylinder Use only the Mohrs circle method which is a thin walled cylinder is src=https:reader039vdocumentssitereader039viewer20220225195b16d2507f8b9a726d8de6eahtml5thumbnails1jpg width=142 height=106 layout=responsive amp-imga divdivdiv class=ts-pagebuttonPage 2button div class=ts-image a href=https:reader039vdocumentssitereader039viewer20220225195b16d2507f8b9a726d8de6eahtml5page2jpg target=_blank amp-img class=ts-thumb alt=Page 2: enggportalfileswordpresscom · Derive the expression for the hoop stress in a thin cylinder Use only the Mohrs circle method which is a thin walled cylinder is src=https:reader039vdocumentssitereader039viewer20220225195b16d2507f8b9a726d8de6eahtml5thumbnails2jpg width=142 height=106 layout=responsive amp-imga divdivdiv class=ts-pagebuttonPage 3button div class=ts-image a href=https:reader039vdocumentssitereader039viewer20220225195b16d2507f8b9a726d8de6eahtml5page3jpg target=_blank amp-img class=ts-thumb alt=Page 3: enggportalfileswordpresscom · Derive the expression for the hoop stress in a thin cylinder Use only the Mohrs circle method which is a thin walled cylinder is src=https:reader039vdocumentssitereader039viewer20220225195b16d2507f8b9a726d8de6eahtml5thumbnails3jpg width=142 height=106 layout=responsive amp-imga divdiv