1. 3 rd Grade Science For The Year My Science PowerPoint Noah 2009

2. Plants of San Diego County Sabrina & Noah

3. Common name: Mule Fat Latin name: Baccharis salicifolia Where it can be found: along stream banks On the next slides are pictures

8. Common name: Miner’s lettuce Latin name: Claytonia parviflora Hook Where you can find it: marshy creek sides in forests. In the next slides I will show you pictures

14. Common name: Western Cottonwood Latin name: Populus Where you can find it: Valley grassland In the next slides I’ll show you pictures

17. Common name: Black Sage Latin name: mellifera Where you can find it: dry slopes In the next slides I will show you pictures

22. Common name: White Sage Latin name: apiana Where you can find it: dry slopes In the next slides I will show you pictures

26. Common name: Mohave Yucca Latin name: schidigera Where you can find it: desert In the next slides I will show you pictures

30. Common name: Laurel Sumac also known as the Taco Plant Latin name: Laurel Sumac Where you can find it: Dry ridges and canyons In the next slides I will show you pictures

34. Common name: Poison Oak Latin name: diversilobum Where you can find it: oak woodlands In the next slides I will show you pictures

38. Common name: Lemonade Berry Latin name: Rhus integrifolia Where you can find it: dry places In the next slides I will show you pictures

42. Broom Baccharis Latin name: Broom Baccharis Where you can find it: sandy washes In the next slides I will show you pictures

46. Common Name: California Aster Latin Name: Lessingia, Filaginifolia Where you can find it: Coastal Sage Scrub, Coastal Salt Marsh, Freshwater Marsh, Mixed-Evergreens Forest and Southern Oak Woodland

47. California Aster

48. Common Name :San Diego Sun Flower Latin Name :Vincio Where you can find it: Coastal Sage Scrub

49. San Diego Sunflower

50. Common Name: California Sunflower Latin Name: Where you can find it: Foothill Woodland, Valley Grassland, Freshwater-Wetlands

51. California Sunflower

52. Common Name: Barrel Cactus Latin Name: Ferocactus cylindraceus Where you can find it: South McCullough Wilderness

53. Barrel Cactus

54. Common Name: Morning-Glory Latin Name: Convolvere Where you can find it: Coastal Sage

55. Morning-Glory

56. Common Name: Deer Weed Latin Name: Scoparius Where you can find it: Dry Slopes

57. Deer Weed

58. Common Name: Wild-Cucumber Latin Name: Marah Where you can find it: Ventilated Areas

59. Wild Cucumber

60. Coast Live Oak Latin Name: Qurcus Where can you find it: Bay area and coast

62. Nuttall's Scrub Oak Latin name: Lotus Nuttallianus Where you can find it: Sandy soils, sandstone slopes of Costal Sage Scrub, Chaparral below 700 0

65. Dodder Latin name: californica Where you can find it: Colorado State

67. This is an Excel graph on inches of water in months. (This isn’t real data).

68. Record Grooves

72. Pictures of Compact Discs

80. Picture of Argentine Ants

81. This is a picture of Army ants attacking one Argentine ant.

82. This is a picture of Argentine ants teaming up to kill another ant.

83. Fire ants killing a beetle.

84. This is a queen Argentina ant.

86. Argentine Ants with Their Queen

87. This is a diagram of an Argentine Ant.

88. Water has something called surface tension. Surface tension is like a thin blanket of water on the surface. It allows you to break the rule of density. Right now I will show you an experiment.

89. Here are the materials you will need.

90. First you get the cup of water and try very slowly to put the paperclip in.

91. Once you get the paperclip to float because of surface tension, you put soap in. Then you notice the paperclip will sink. That is because the soap broke the surface tension.

92. 1.5 V Battery Light bulb Negative Positive Electrical Circuit

93. Venus Moon Jupiter Planets Moving West

94. This is a o F and o C thermometer.

95. Today we will be focusing on the Celsius side.

96. If it was at 0 degrees in Celsius water would freeze. Ya!! Just like that!!

97. If it was at 100 degrees Celsius water would boil. Like that too! Hey. Where do these pop ups keep coming from?

98. That will conclude our lesson for today!!! Oops, we must go on.

99. Now I will show you different pictures of constellations.

105. Next I will show you how light from the sun comes to the human eye.

107. In the next slide I will show you a telescope site.

109. Next you will see the moon revolving around the earth.

111. Next you will see a schedule of the moons phases.

112. Nov 2008 SunMonTueWedThuFriSat 1 2 3 4 5 6 7 8 9 10 1 12 13 14 15 16 17 18 19 20 21 2 23 24 25 26 27 28 29 30

113. E W The Sun’s Summer Path

114. E W The Sun’s Winter Path

115. The Moon’s Phases

116. New Moon - The Moon's illuminated side is facing the Earth. The Moon is not visible (except during a solar eclipse).

117. Waxing Crescent - The Moon appears to be partly but less than one-half illuminated by direct sunlight. The fraction of the Moon's disk that is illuminated is increasing.

118. First Quarter - One-half of the Moon appears to be illuminated by direct sunlight. The fraction of the Moon's disk that is illuminated is increasing.

119. Waxing Gibbous - The Moon appears to be more than one-half but not fully illuminated by direct sunlight. The fraction of the Moon's disk that is illuminated is increasing

120. Full Moon - The Moon's illuminated side is facing the Earth. The Moon appears to be completely illuminated by direct sunlight.

121. Waning Gibbous - The Moon appears to be more than one-half but not fully illuminated by direct sunlight. The fraction of the Moon's disk that is illuminated is decreasing.

122. Last Quarter - One-half of the Moon appears to be illuminated by direct sunlight. The fraction of the Moon's disk that is illuminated is decreasing.

123. Waning Crescent - The Moon appears to be partly but less than one-half illuminated by direct sunlight. The fraction of the Moon's disk that is illuminated is decreasing.

124. New Moon - The Moon's unilluminated side is facing the Earth. The Moon is not visible (except during a solar eclipse).

125. With All Those Phases Together It Will Look Something Like This.

126. Gravity Without gravity we would be flying in the air and so would everything else. You have to be very thankful for the Earth’s gravity.

127. With a balloon like this one that has something heavy attached to it, it will fall.

128. With a balloon like this that has helium, without some- thing to weigh it down will go up because of a force called lift.

130. A Balloon Is Made Out Of Helium Helium is the second lightest element in the periodic table of elements, and is what you put in balloons. The reason it goes up is because helium is lighter than air. The chemical sign for it is He. Helium

131. In the next slide I will show you the Winter Constellation Orion.

133. Pictures of the planet Venus and Venus’s surface

134. More pictures of the planet Venus and Venus’s surface

135. Stellarium

137. Energy NuclearHeatElectricalKineticStoredChemicalLightSound

138. Chemical energy WoodGasoline Natural gas Food

139. The Periodic table of elements.

140. This is a… !!!

141. This is how it works. You put an object on the pan, then you move the masses until it is in line with the balance mark. Then you know how much it weighs!

142. These are the ancient Greek elements. FireWaterEarth Air

143. These are graduated cylinders. O ops.

144. You use graduated cylinders do measure like water like this. First you pour water in the cylinder. Then you see how many mL of water you poured, then your done and you can eat some cookies! Hooray!

145. States of Matter in a Microscopic View Solid Liquid Gas

146. This is copper at room temperature.

147. This is copper heated hotter.

148. And this is copper extremely hot.

149. Solid Liquid Gas + Heat = - Heat =

150. States Of Matter Changing

151. An experiment not to try at home. In this experiment you will see what happens when something is heated or cooled.

152. These are the materials.

153. First you make sure the brass ball can fit into the brass circle.

154. Then you torch the ball.

155. Then when you try to fit it in again, it won’t fit.

156. Then to cool down the ball and make it smaller you put the ball in water.

157. My table is five and a half FEET long.

158. How We Get Energy

159. First the sun shines heat and light, two types of energy, and the energy goes to the earth. Energy

160. Then plants absorb the energy.

161. Next animals like cows eat the plant and get the energy.

162. Then when cows produces milk, the energy is converted into it.

163. Then when we drink the milk we get the energy! This process can happen with different animals too.

164. A type of kinetic energy are waves. For example, when you drop a a penny in water, the energy is waves.

165. If you were to cut a copper wire in half a lot of times, you would end up with an atom. Atom

166. An experiment (don’t try this at your house.) r 5 mL of Baking Soda 50 mL of vinegar

167. February 26,27,and28’s moon in 2009.

168. This is an animation of the Big Dipper.

169. If you haven’t noticed, these stars always points to the North Star.

170. One of our most powerful telescopes is the Meade Telescope.

171. This is a picture of the view of the Meade Telescope.

172. This is the device named after Kepler.

173. This is Johannes Kepler.

174. This device was named after Kepler because Kepler discovered the planetary laws of motion. LAUNCH INFORMATION Launch date/time: No earlier than 2009 March 6 at 10:48 pm EST To find out any official changes in launch time, see NASA Launch Schedule page. L-14 (14 days before launch) Press Conference Media Resources...full Press Kit (3 Mb pdf) Johannes Kepler was born at 2:30 PM on December 27, 1571, in Weil der StadtNASA Launch Schedule L-14 (14 days before launch) Press Conference Media ResourcesPress Kit

175. Botany

176. Blood Red Distictis

181. Embryo

182. Cotyledon

183. More plant pictures

194. Fruits that have seeds.

195. Orange

196. Apple

197. Avocado

198. Strawberry

199. Pear

200. Tomato

201. Watermelon

202. Raspberry

203. Blackberry