Determine the ratio of the compactive energy used in the heavy compaction test to that in...

1.       Compute the compactive effort or compaction energy for a soil sample compacted in a mold...

1.       Compute the compactive effort or compaction energy for a soil sample compacted in a mold with a volume of 1/30 cubic foot which uses 4 layers to place soil in the mold and compacts each layer using a hammer with a weight of 10 lbs that is dropped 12 inches and uses 20 blows per layer. 2.       Using the result from question 1 compare the compaction energy to the Modified Proctor compaction test and the Standard Proctor compaction test?...

Compute the compactive effort or compaction energy for a soil sample compacted in a mold with...

Compute the compactive effort or compaction energy for a soil sample compacted in a mold with a volume of 1/30 cubic foot which uses 4 layers to place soil in the mold and compacts each layer using a hammer with a weight of 10 lbs that is dropped 12 inches and uses 20 blows per layer. (2 pts) 2. Using the result from question 1 compare the compaction energy to the Modified Proctor compaction test and the Standard Proctor compaction...

Compute the compactive effort or compaction energy for a soil sample compacted in a mold with...

Compute the compactive effort or compaction energy for a soil sample compacted in a mold with a volume of 1/30 cubic foot which uses 4 layers to place soil in the mold and compacts each layer using a hammer with a weight of 10 lbs that is dropped 12 inches and uses 20 blows per layer. (2 pts) 2. Using the result from question 1 compare the compaction energy to the Modified Proctor compaction test and the Standard Proctor compaction...

1. Compute the compactive effort or compaction energy for a soil sample compacted in a mold...

1. Compute the compactive effort or compaction energy for a soil sample compacted in a mold with a volume of 1/30 cubic foot which uses 4 layers to place soil in the mold and compacts each layer using a hammer with a weight of 10 lbs that is dropped 12 inches and uses 20 blows per layer. (2 pts) 2. Using the result from question 1 compare the compaction energy to the Modified Proctor compaction test and the Standard Proctor...

Compute the mechanical energy input in kJ/m3 for heavy compaction as per AS1289.5.2.1. Include all the...

Compute the mechanical energy input in kJ/m3 for heavy compaction as per AS1289.5.2.1. Include all the calculation steps.

In a Proctor compaction test, the optimum water content of a fill material is found as...

In a Proctor compaction test, the optimum water content of a fill material is found as 12%. Specific gravity of solids is 2.6, maximum void ratio is 0.93, and minimum void ratio is 0.53. A 2.4m (height) x 30m x 30m embankment of this soil is to be compacted to 90% relative density. a)The embankment will be compacted in 8 layers of 30cm thickness.Calculate the quantity of water to be added to each layer for the most efficient compaction. b)You...

In a 1D compression test, the ring used to hold the soil measured to be 1...

In a 1D compression test, the ring used to hold the soil measured to be 1 inch in height and 2.5 inches in diameter. The moist soil weighed 131.77g and a oven dry weight of 21.5g. Assuming G (gravity factor) is 2.7 Determine: A) initial values of - Water content, Density, unit weight, saturation, void ratio B) Final values of - Density, unit weight, saturation and void ratio

Use the ratio test to determine convergence or divergence. If the ratio test is inconclusive, use...

Use the ratio test to determine convergence or divergence. If the ratio test is inconclusive, use another method to determine convergence or divergence. ∞ (−1)n(n!)2 / (7n)! n = 1 Its the series from 1 to infinity of (-1)^n times (n!)^2 divided by (7n)!

Determine the ratio of the relativistic kinetic energy to the nonrelativistic kinetic energy (1/2mv2) when a...

Determine the ratio of the relativistic kinetic energy to the nonrelativistic kinetic energy (1/2mv2) when a particle has a speed of (a) 1.69 × 10-3c. and (b) 0.872c.

Determine the ratio of the relativistic kinetic energy to the nonrelativistic kinetic energy (1/2mv2) when a...

Determine the ratio of the relativistic kinetic energy to the nonrelativistic kinetic energy (1/2mv2) when a particle has a speed of (a) 1.24 × 10-3c. and (b) 0.854c.