Presentation is loading. Please wait.

Presentation is loading. Please wait.

Page 305 Q 1-4.. On looseleaf with heading. Water cycle :

Similar presentations


Presentation on theme: "Page 305 Q 1-4.. On looseleaf with heading. Water cycle :"— Presentation transcript:

1 Page 305 Q On looseleaf with heading

2 Water cycle :

3

4 Impermeable

5

6 Zone of Saturation

7 Impermeable Zone of Saturation

8 GROUNDWATER Impermeable Zone of Aeration Zone of Saturation

9 GROUNDWATER Impermeable Zone of Aeration Zone of Saturation

10 GROUNDWATER Impermeable Zone of Aeration Zone of Saturation Zone of Capillarity

11 GROUNDWATER Impermeable Zone of Aeration Zone of Saturation Zone of Capillarity

12 capillary water: Adhesion: attraction between different objects Cohesion: attraction between like objects As pore size increases, capillary___________________ Do water on table and straw demo….

13 Notes page 2 relationship 10.________________________________________ 11.________________________________________ 12.________________________________________ 13.________________________________________ 14.________________________________________ Pore space / total space x 100 = ____________

14 Notes page 4 1.size... 2.Affect porosity a. b. c

15 Notes page 4 3. a. b. c.

16 Groundwater factors: 1. Porosity – 2. Permeability –

17 Factors of Groundwater: (a) porosity: sandy soil clay soil

18 Factors of Porosity Particle shape packing particle size sorting

19 FACTORS OF PERMEABILITY:

20 40.0 cm

21 Fine grain size = 4.0 mm Sediment: ml Shape: spherical sediment Water to fill pores: ml Time for water to pass: 32.2 sec Water passing through:182.4 ml Water movement distance = 40.0 cm Medium grain size = 7.0 mm Sediment: ml Shape: spherical sediment Water to fill pores: ml Time for water to pass: 12.6 sec Water passing through: ml Water movement distance = 40.0 cm Coarse grain size = 12.0 mm Sediment: ml Shape: spherical sediment Water to fill pores: 260.3ml Time for water to pass: 9.9 sec Water passing through: ml Water movement distance = 40.0 cm Mixed Grain size = 12.0, 7.0, 4.0 mm Sediment: ml Shape: spherical sediment Water to fill pores: ___________ Time for water to pass: _______ Water passing through: _______ Water movement distance = 40.0 cm

22 Fine grain size = 4.0 mm Sediment: ml spherical sediment

23 Fine grain size = 4.0 mm Sediment: ml spherical sediment Water to fill pores: ml Time for water to pass: 32.2 sec Water passing through: ml Water movement distance = 40.0 cm

24 Medium grain size = 7.0 mm Sediment: ml spherical sediment

25 Medium grain size = 7.0 mm Sediment: ml spherical sediment Water to fill pores: ml Time for water to pass: 12.6 sec Water passing through: ml Water movement distance = 40.0 cm

26 Coarse grain size = 12.0 mm Sediment: ml spherical sediment

27 Coarse grain size = 12.0 mm Sediment: ml spherical sediment Water to fill pores: 260.3ml Time for water to pass: 9.9 sec Water passing through: ml Water movement distance = 40.0 cm

28 Mixed Grain size = 12.0, 7.0, 4.0 mm Sediment: ml spherical sediment Water to fill pores: ___________ Time for water to pass: _______ Water passing through: _______ Water movement distance = 40.0 cm

29 Lab Porosity = Pore space (water to fill pores) total space (500.0 ml) x 100 Capillary Water = Water to fill pores - Water passing through

30 As size increases, porosity ________ As size increases, permeability _____ As size increases, capillary ________ Copy on back of notes page 3…

31 Greenhouse effect Copy on back of notes page 3…

32

33 Page 5 Binder notes… WATER ENTERS THE ATMOSPHERE AND LEAVES THE GROUND BY: Evapotranspiration (Ep or PE)

34 WATER ENTERS THE ATMOSPHERE AND LEAVES THE GROUND BY: Evapotranspiration WATER Leaves THE ATMOSPHERE AND Enters THE GROUND BY: Precipitation(P)

35 P and Ep

36

37 ClimateP/Ep or P/PE Humid> 1.2 Subhumid0.8 to 1.2 Semiarid0.4 to 0.8 Arid< 0.4 Climate Classification

38 P and Ep

39

40

41 Key: Blue = ppt Red - Ep DO NOW: Lab Groups Pages 7 and 8

42 Key: Blue = ppt Red - Ep

43

44 Climate Factors 1. Latitude 2. Altitude 3.Orographic effect 4. Closest to large body water 5. Currents a. wind b. ocean

45 COLOR CODECOLOR CODEESRT 4

46

47

48 Converge Diverge Converge

49 Diverge LOW HIGH Converge LOW

50 Converge Diverge LOW HIGH Cold ocean Converge LOW Warm Ocean

51 Converge Diverge LOW HIGH Cold ocean Converge LOW Warm Ocean ClimateP/Ep or P/PE Humid> 1.2 Subhumid0.8 to 1.2 Semiarid0.4 to 0.8 Arid< 0.4

52

53

54 Greenhouse effect

55

56

57 INSOLATION INcoming SOLar radiATION INSOLATION strength variables Angle of insolation greatest= Duration of insolation greatest=

58 Upwelling the process by which warm, less- dense surface water is drawn away from along a shore by offshore currents and replaced by cold, denser water brought up from the subsurface. El Nino Lab

59

60 animation

61

62 April 2010: Airlines Face Continued Disruptions From Ash Clouds From Iceland Volcano


Download ppt "Page 305 Q 1-4.. On looseleaf with heading. Water cycle :"

Similar presentations


Ads by Google