based on a concrete tensile capacity of 7.5 Vfc: 4.2. Compare the cracking moment based on the gross section properties and the transformed section properties with two No. 10 (No. 32) bars in Figure P4.1b based on a concrete tensile capacity of 7.5 Vf.. the cracking ne based on the cress seetion pronerties ond the

Part 4.2 is where I'm having trouble. 

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PROBLEMS 4.1. Compare the cracking moment based on the gross section properties and the transformed section properties with four No. 11 (No. 36) bars in Figure P4.1a based on a concrete tensile capacity of 7.5 Vf.. Compare the cracking moment based on the gross section properties and the transformed section properties with two No. 10 (No. 32) bars in Figure P4.1b based on a concrete tensile capacity of 7.5 Vf.. Compare the cracking moment based on the gross section properties and the transformed section properties with four No. 9 (No. 29) bars in Figure P4.1c based on a concrete tensile capacity of 7.5 Vf.. Compare the cracking moment based on the gross sectio transformed section properties with two No. 11 (No. 36) bars in Figure P4.1d based on a concrete tensile capacity of 7.5 Vf. 4.5. 4.2. 4.3. 4.4. properties and the Determine the cracking moment based on the gross section properties in Figure P4.1d if the section is prestressed such that there is a 300 psi compression stress in the extreme tension zone and the concrete tensile capacity is 7.5 Vf. 4.6. Determine the service level moment capacity of the section in Figure P4.la if the allowable stress for concrete is 0.45 f and the allowable stress for the rein- forcement is 30,000 psi. Use the areas of reinforcement from Problem 4.1. 28" 36"- F12"- 36" *8"- 2-2" typ 24" 36" 36" 2-2" typ 8" (a) = 4000 psi (b) = 5000 psi (c) = 6000 psi (d) % = 3000 psi FIGURE P4.1