A beam with the cross section geometry and dimensions as shown in the figure and parameter table is subjected to an internal shear of V = 6 kip. Determine that shear-stress values at the numbered locations in the figure. Your written work should include a sketch of the shear profile over the entire cross-section (note that the beam is symmetrical so its shear profile will be as well). L3 parameter value units 4 in in in in kip L₁ L2 L3 LA V 1.5 1.5 6 T₁ at 4 in. above the NA = 2021 Cathy Zupke The neutral axis is at line 5. Find the shear stress at the specified locations: T2 at 3.25 in. above the NA = ksi ↑ ksi T3+ at 2.5 in. above the fat the bottom of the flange) =

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A beam with the cross section geometry and dimensions as shown in the figure and parameter table is subjected to an internal shear of V = 6 kip. Determine that shear-stress values at the numbered locations in the figure. Your written work should include a sketch of the shear profile over the entire cross-section (note that the beam is symmetrical so its shear profile will be as well). L3- parameter value units in in in in 6 kip L₁ L2 L3 LA V 4 8 1.5 1.5 6 T₁ at 4 in. above the NA = 3+ T2 at 3.25 in. above the NA = cc 080 BY NO SA 2021 Cathy Zupke The neutral axis is at line 5. Find the shear stress at the specified locations: ksi ↑ ksi T3+ at 2.5 in. above the HA fat the bottom of the flange) =

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parameter L₁ L2 L3 LA V value 4 8 1.5 1.5 6 T₁ at 4 in. above the NA = units in in in in kip The neutral axis is at line 5. Find the shear stress at the specified locations: T2 at 3.25 in. above the NA = T5 at the NA = T4 at 1.25 in. above the NA = T3+ at 2.5 in. above the NA (at the bottom of the flange) = ksi ksi T3- at 2.5 in. above the NA (at the top of the web) = ksi T6 at 1.25 in. below the NA = ksi ksi ↑ L4 ✓ ksi ksi