11 fix

src/11_mega_interval.md

@@ -9,7 +9,7 @@ As was shown in Chapter 1.3 (see Fig. 1.10), the real ***boundary*** between for
 
 Thus, it is ***from the first order of the Megainterval that the spherical bodies of planets*** begin to form. Let us consider when other signs of monocentrism appear: ***nuclei and shell structure***.
 
-There is no reliable evidence that planets smaller than 1000 km (\\(10^{8}\\) cm) have nuclei. Perhaps the Moon, which is 3.4 \- \\(10^{8}\\) centimeters in diameter, has a nucleus. "According to the velocity distribution ... the Moon may have a small core with a radius of a few hundred kilometers. The core is in a molten or semi-molten state, since transverse waves do not pass through it, and consists of Fe-FeS solution."[^ref-88]
+There is no reliable evidence that planets smaller than 1000 km (\\(10^{8}\\) cm) have nuclei. Perhaps the Moon, which is \\({3.4}\cdot{10^{8}}\\) centimeters in diameter, has a nucleus. "According to the velocity distribution ... the Moon may have a small core with a radius of a few hundred kilometers. The core is in a molten or semi-molten state, since transverse waves do not pass through it, and consists of Fe-FeS solution."[^ref-88]
 
 ![](./media/image109.jpg)
 *Fig. 1.34. A mega-interval of 20 orders of magnitude extends from point B to point C*