Name: Date: Worksheet 54: Perm/Por Review
Transcription
Name: Date: Worksheet 54: Perm/Por Review
Name: Date: Worksheet 54: Perm/Por Review 1. The diagrams below represent two identical containers filled with nonporous uniform particles. The containers represent models of two different sizes of soil particles. 5. Base your answer to the following question on the diagrams below, which represent cross sections of four samples of loosely packed, uniformly sorted soil particles. The diameter of the particles is given below each diagram. All soil samples consist of solid spherical particles. Compared to the model containing larger particles, the model containing smaller particles has A) B) C) D) less permeability and greater porosity greater porosity and greater capillarity less permeability and greater capillarity greater permeability and greater porosity 2. Soil with the greatest porosity has particles that are A) B) C) D) poorly sorted and densely packed poorly sorted and loosely packed well sorted and densely packed well sorted and loosely packed Which sample has the greatest permeability? A) A B) B C) C D) D 6. Base your answer to the following question on the diagrams below, which represent cross sections of four samples of loosely packed, uniformly sorted soil particles. The diameter of the particles is given below each diagram. All soil samples consist of solid spherical particles. 3. Soil with the lowest porosity is composed of particles that are all A) B) C) D) different sizes and shapes large and angular small and rounded large and rounded 4. Which soil conditions normally result in the greatest amount of runoff? A) B) C) D) low permeability and gentle slope low permeability and steep slope high permeability and gentle slope high permeability and steep slope Some particles from sample D are mixed with particles from sample A. Compared to the original permeability of sample A, the permeability of the resulting mixture will be A) less C) the same B) greater 7. The diagrams below represent two containers, each filled with a sample of nonporous particles of uniform size. Compared to the sample of larger particles, the sample of smaller particles has A) lower permeability C) less porosity B) higher permeability D) more porosity 8. Which condition is most likely to cause surface runoff during a rainstorm? A) The permeability of the soil is greater than the rate of rainfall. B) The porosity of the soil is greater than the amount of rainfall. C) The surface slope allows for maximum infiltration. D) The surface soil is saturated. 9. Base your answer to the following question on your knowledge of Earth science, the Earth Science Reference Tables, and the diagram below which represents a geologic cross section of a region receiving rainfall. Interfaces are indicated by the letters A through F. 10. During a heavy rainstorm, soil samples A and B both became saturated with water. However, 10 minutes after the storm ended, the soils appeared as shown below. Which statement best explains the observed change in the water content of the soil samples? A) The permeability of B is greater than the permeability of A. B) The porosity of B is greater than the porosity of A. C) The capillarity of B is greater than the capillarity of A. D) The surface runoff at B is greater than the surface runoff at A. 11. Which surface soil type has the slowest permeability rate and is most likely to produce flooding? A) pebbles C) silt B) sand D) clay A) B) C) D) Which one of the Earth's materials shown in the diagrams below would have the greatest permeability? 12. Which diagram represents the soil with the greatest permeability? A) B) C) D) 13. Base your answer to the following question on on the diagram below, which shows laboratory materials used for an investigation of the effects of sediment size on permeability, porosity, and water retention. Four separate columns, labeled A through D, were filled to the same level with different sediments. The sediments within each column are of uniform size. An equal amount of water is poured through each column. On the grid, draw a line to show the relative amount of water retained in the sediment after the water flows through each column. Base your answers to questions 14 and 15 on the diagram, data and information below. The diagram below represents part of the laboratory setup for an activity to investigate the effects of particle size on permeability, porosity, and water retention. Three separate tubes were used, each containing 300 milliliters of beads of uniform size. Bead sizes were 4 millimeters, 7 millimeters, and 12 millimeters in diameter, respectively. 14. Water can infiltrate loose soil when the soil is A) saturated and permeable C) unsaturated and permeable B) saturated and permeable D) unsaturated and impermeable 15. What was the total amount of water retained on the 7-millimeter beads after the tubing was unclamped and the water flowed out? A) 8 mL B) 12 mL C) 22 mL D) 36 mL