Table of Contents

1. Table of Contents • Wave Action • Tides • Ocean Water Chemistry • Currents and Climate

2. - Wave Action What Is a Wave? • Most waves form when winds blowing across the water’s surface transmit their energy to the water.

3. - Wave Action Water Motion Activity • Click the Active Art button to open a browser window and access Active Art about water motion.

4. - Wave Action How Waves Change Near Shore • Near shore, wave height increases and wavelength decreases.

5. - Wave Action How Waves Change Near Shore • A tsunami is usually caused by an earthquake beneath the ocean floor.

6. - Wave Action How Waves Affect the Shore • As waves come into shore, water washes up the beach at an angle, carrying sand grains. The water and sand then run straight back down the beach.

7. - Wave Action Using Prior Knowledge • Before you read, look at the section headings and visuals to see what this section is about. Then write what you know about waves in a graphic organizer like the one below. As you read, write what you learn. What You Know There are waves in the ocean. Wind causes waves. What You Learned Waves move energy to the shore. Earthquakes cause tsunamis.

8. - Wave Action Wave Characteristics • Click the Video button to watch a movie aboutwave characteristics.

9. End of Section:Wave Action

10. - Tides What Causes Tides? • Tides are caused by the interaction of Earth, the moon, and the sun.

11. - Tides What Causes Tides? • Spring tides and neap tides are caused by the positions of Earth, the sun, and the moon.

12. - Tides Plotting Tides • This table lists the highest high tides and the lowest low tides for one week at the mouth of the Savannah River, where it meets the Atlantic Ocean in Georgia.

13. Check students’ progress as they make their graphs. The number –1 should occur at the base of the y-axis. Graphing: Use the data in the table to make a graph. On the horizontal axis, mark the days. On the vertical axis, mark tide heights ranging from 3.0 to –1.0 meters. (Hint: Mark the negative numbers below the horizontal axis.) - Tides Plotting Tides

14. Make certain that students connect the correct points with lines. Graphing: Plot the tide heights for each day on the graph. Connect the high-tide points with one line and the low-tide points with another line. - Tides Plotting Tides

15. During the first six days, the high-tide value increases steadily while the low-tide value decreases. On day 7, the trends reverse. Interpreting Data: How do the high and low tides change during the week? - Tides Plotting Tides

16. Spring tide might be occurring on day 6, when there is the greatest difference between high and low tides. Inferring: What type of tide might be occurring on day 6? Explain. - Tides Plotting Tides

17. - Tides Previewing Visuals • Before you read, preview Figure 11. Then write two questions you have about the diagram in a graphic organizer like the one below. As you read, answer your questions. Spring and Neap Tides Q. When do spring tides occur? A. During the full and new moon phases Q. What is a neap tide? A. A smaller tide that happens at the first- and third-quarter moons

18. - Tides More on Tides • Click the PHSchool.com button for an activity about tides.

19. End of Section:Tides

20. - Ocean Water Chemistry The Salty Ocean • On average, one kilogram of ocean water contains about 25 grams of salts–that is, 35 parts per thousand.

21. To calculate the density of a substance, divide the mass of the substance by its volume. For example, 1 liter (L) of ocean water has a mass of 1.03 kilograms (kg). Therefore, Density = 1.03 kg/L - Ocean Water Chemistry Calculating Density

22. Practice Problem A 5-liter sample of one type of crude oil has a mass of 4.10 kg. What is its density? If this oil spilled on the ocean’s surface, would it sink or float? Explain your answer in terms of density. The density is 0.82 kg/L (4.10 kg ÷ 5.00 L). The oil would float on top of the ocean because it is less dense than ocean water. - Ocean Water Chemistry Calculating Density

23. - Ocean Water Chemistry Changes With Depth • Conditions change as you descend to the ocean floor.

24. - Ocean Water Chemistry Asking Questions • Before you read, preview the red headings. In a graphic organizer like the one below, ask a how or what question for each heading. As you read, write answers to your questions. Ocean Water Chemistry Question Answer How salty is the ocean? Ocean water has an average salt concentration of 35 parts per thousand. How does the ocean change with depth? As you descend, the temperature decreases and the pressure increases.

25. - Ocean Water Chemistry Links on Ocean Water Chemistry • Click the SciLinks button for links on ocean water chemistry.

26. End of Section:Ocean Water Chemistry

27. - Currents and Climate Surface Currents • Surface currents, which affect water to a depth of several hundred meters, are driven mainly by winds.

28. - Currents and Climate Deep Currents • Deep currents are caused by differences in the density of ocean water.

29. - Currents and Climate Upwelling • Upwelling brings up tiny ocean organisms, minerals, and other nutrients from the deeper layers of the water. Without this motion, the surface waters of the open ocean would be very scarce in nutrients.

30. - Currents and Climate Relating Cause and Effect • As you read, identify the main factors that cause surface and deep currents in the oceans. Write the information in a graphic organizer like the one below. Cause Effect Winds Surface currents Differences in ocean-water density Deep currents

31. - Currents and Climate Links on Ocean Currents • Click the SciLinks button for links on ocean currents.

32. End of Section:Currents and Climate

33. Graphic Organizer How Waves Move Wind creates a ripple on the ocean surface. Wave travels as a low swell. Wave touches the bottom in shallow water. Wavelength decreases and wave height increases. Wave breaks on shore.

34. End of Section:Graphic Organizer