Ruri, Nagi, and Imari head to the beach in search of agate, and Ruri learns about the long lifecycle of rocks.
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64. It basically has the same
composition as quartz.
65. How? It looks so different!
66. Agate's bands are easy to understand
when you learn how they form.
67. Silicon Dioxide
(Origin of Agate)
68. First, hot water flows
into cavities in the rock.
69. Then, silicon dioxide precipitates,
forming a layer of very fine crystals.
70. Precipitation
Forms New Layer
71. Hot Water Flows In
72. Precipitation
Forms New Layer
73. Precipitation
Forms New Layer
74. Hot Water Flows In
75. Hot Water Flows In
76. Precipitation
Forms New Layer
77. This cycle repeats, gradually
creating multiple layers.
78. Precipitation
Forms New Layer
79. Hot Water Flows In
80. Hot Water Flows In
81. Precipitation
Forms New Layer
82. Precipitation
Forms New Layer
83. Hot Water Flows In
84. Bands
85. Hot Water Flows In
86. What about the red color?
87. The coloring is from impurities.
Red usually means iron oxide.
88. Although they have the same composition,
89. quartz forms as a single large crystal,
90. while agate is made of
many layers of tiny crystals.
91. It's only natural they have different names.
92. I gotta hurry and find my own!
93. Found one.
94. You've gotta be kidding!
95. I was working so much harder!
96. You can't really argue with luck.
97. Maybe I'll make a comma-shaped bead.
98. Hmph!
99. Are they really here?
100. Maybe those were the last two.
101. Ow!
102. What the heck is this rock?
103. It's the only one this jagged and big.
104. Out of my way!
105. Huh?
106. A banded pattern! It's agate!
107. I found some! Come here!
108. There were two right here by this rock.
109. You'll find tons here.
110. Nice. But isn't that just a coincidence?
111. Really? I was only trying to help out.
112. Actually, Ruri might be spot on.
113. Over here.
114. These blocks are pretty worn down.
115. So that's where that jagged rock came from.
116. You think the waves caused it?
117. Water can do that?
But the other blocks are fine.
118. This is just my theory, but wave energy
must concentrate here during high seas.
119. It's more vulnerable
to wave force.
120. If I could see the natural terrain,
I could say for sure.
121. Hard to determine!
122. Hard to determine!
123. Hard to determine!
124. Hard to determine!
125. Hard to determine!
126. Hard to determine!
127. Here's another one.
128. I told you there's tons!
129. Let's look here.
130. Come on, agate!
131. Found one!
132. That makes three.
133. Is this...?
134. You find one too, Imari-san?
135. Senpai, can you take a look?
136. It's a pretty red rock,
but it doesn't have bands.
137. Yup, it's chalcedony.
138. Thought so!
139. What's that?
140. It's agate without the banded pattern.
141. With Bands
142. Agate
143. Without Bands
144. Chalcedony
145. That's the only difference.
146. It gets its own name for that?
147. Hang on...
148. So one crystal makes a quartz crystal,
149. and tiny crystals in layers makes agate,
150. while without layers is chalcedony?
151. Jasper
A type of agate and chalcedony
that's completely opaque.
In Japanese, its name includes kanji
meaning "blue/green," but in reality,
they are usually red.
152. Jasper
A type of agate and chalcedony
that's completely opaque.
In Japanese, its name includes kanji
meaning "blue/green," but in reality,
they are usually red.
153. Jasper
A type of agate and chalcedony
that's completely opaque.
In Japanese, its name includes kanji
meaning "blue/green," but in reality,
they are usually red.
154. Jasper
A type of agate and chalcedony
that's completely opaque.
In Japanese, its name includes kanji
meaning "blue/green," but in reality,
they are usually red.
155. Jasper
A type of agate and chalcedony
that's completely opaque.
In Japanese, its name includes kanji
meaning "blue/green," but in reality,
they are usually red.
156. Jasper
A type of agate and chalcedony
that's completely opaque.
In Japanese, its name includes kanji
meaning "blue/green," but in reality,
they are usually red.
157. Then there's jasper,
which has more impurities.
158. Jasper
159. Uhh... there's more...?
160. Quartz
161. Jasper
162. Chalcedony
163. Agate
164. Ultimately, they're all varieties of quartz.
165. Chalcedony
166. Agate
167. You're just trying to fry my brain!
168. I was afraid I wouldn't get any.
169. Good thing I found that spot.
170. You said that spot
is vulnerable to wave force,
171. but what does that have to do with agate?
172. Good question. I'm not sure.
173. You don't know?
174. It was the sole obvious difference.
175. My theory might be right, or it might not.
176. So you have no idea?
177. That's definitely gonna bug me.
178. Will it?
179. Okay, let's see...
180. Waves exert more force when seawater
is funneled through a narrow space.
181. Based on this, we can infer that this spot
collects rocks transported from a wider area.
182. This would explain
how agate accumulated here.
183. Or maybe it's not that complicated.
184. This spot could simply be
near an agate deposit.
185. That makes sense.
186. Yup, I feel much better!
187. Imari-san, can I see the ones you found?
188. Here are mine.
189. That red chalcedony is so cool.
190. Want to trade me for yours?
191. Yeah!
192. Oh, but... this one's pretty.
193. And I wanna keep this one, too.
194. Hang on, I can't find one to trade...
195. I'm okay with this small one.
196. Really?
197. Nagi-san! Can I see yours, too?
198. Here.
199. That's it?
200. I thought you found more.
201. These are plenty to take home as specimens.
202. You didn't keep the other ones?
What a waste!
203. It's okay.
204. For me, minerals are just
a means, not the goal.
205. I only take what I need.
206. What do you mean by that?
207. What matters most is
how I use rocks in my research.
208. So finding them isn't the end goal?
209. Hmm...
210. You know what I wonder
when I find a new rock?
211. How did this rock get here?
212. What does its journey signify?
213. What can this rock teach us?
214. Does it support the validity
of an existing theory?
215. Or does it point toward
a completely new one?
216. Each rock we examine raises
new questions and theories to test.
217. And with every question answered,
we can refine our knowledge.
218. We can learn more about how the world
evolved over 4.6 billion years.
219. That history can only be found in rocks.
220. The more rocks I study, the better we
understand the true nature of our world.
221. I want to contribute to that knowledge.
222. So yeah. I guess that's my reason.
223. Wow... That's Nagi-san, for ya.
224. You're so cool.
225. That kinda stuff never even crossed my mind.
226. You sure? You really hadn't thought of that?
227. Why do you ask?
228. Don't you remember?
229. What about?
230. What you said earlier.
About how not knowing would bug you.
231. If you really hadn't thought of it,
232. you wouldn't have wondered
about it in the first place.
233. But it's not like I was
thinking anything difficult.
234. It just happened.
235. I think you might be
crossing over to our side.
236. Hey, what do you mean by that?
237. Just so you know, most people don't
even bother looking for localities.