QUESTION 2 The cross section at station 2+60 has a cut area of 9 ft2 and a f fill between these stations? Assume no swell or compaction. Round to the nearest hundredths. QUESTION 3 The cross section at station 2+60 has a cut area of 9 ft2 and a f fill between these stations? Assume 10% swell. Round to the nearest hundredths. QUESTION 4

solve question 4 only

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QUESTION 2 The cross section at station 2+60 has a cut area of 9 ft2 and a fill area of 4 ft2 and the cross section at station 3+00 has a cut area of 7 ft² and a fill area of 8 ft2. What is the volume (yd³) of fill between these stations? Assume no swell or compaction. Round to the nearest hundredths. QUESTION 3 The cross section at station 2+60 has a cut area of 9 ft2 and a fill area of 4 ft2 and the cross section at station 3+00 has a cut area of 7 ft2 and a fill area of 8 ft2. What is the volume (yd) of fill between these stations? Assume 10% swell. Round to the nearest hundredths. QUESTION 4 The cross section at station 2+60 has a cut area of 9 ft2 and a fill area of 4 ft2 and the cross section at station 3+00 has a cut area of 7 ft² and a fill area of 8 ft2. What is the net volume (yd) between these stations? Assume 10% swell. Round to the nearest hundredths. QUESTION 5 If the free haul area is between 4+30 and 14+30, what is the average haul distance (ft) for the net volume of material taken from the section between station 2+60 and 3+00?