X-Git-Url: https://git.gag.com/?a=blobdiff_plain;ds=sidebyside;f=rockets%2Fresearch%2F2017-batch-02.mdwn;h=65ef4121ce4d18d89bdbcffcc256b39a1199b008;hb=2045150506d8f63d150c97bba4a407b3b97546b4;hp=9825e386a49330c44f5b5043ff07167a0f316865;hpb=f8ddf86eb701ba78484d5049b5acbbc53c031e17;p=web%2Fgag.com

diff --git a/rockets/research/2017-batch-02.mdwn b/rockets/research/2017-batch-02.mdwn
index 9825e38..65ef412 100755
--- a/rockets/research/2017-batch-02.mdwn
+++ b/rockets/research/2017-batch-02.mdwn
@@ -12,8 +12,8 @@ For our first attempt, we made up a 10g batch with the following formula:
 * 7% magnesium powder, 0.70g
 * 1% air float charcoal, 0.10g
 * 24% West Systems 105+205 epoxy, 2.40g
-** 2.01g 105 resin
-** 0.39g 205 hardener
+    * 2.01g 105 resin
+    * 0.39g 205 hardener
 
 Two folded papers were used to weigh out the KNO3 in one, and a mixture of
 the magnesium powder and charcoal in another.  The epoxy was mixed in a small 
@@ -43,9 +43,8 @@ These igniters were made on 17 May 2017.
 
 They didn't work.  The basic problem is that the pyrogen on the Chinese 
 e-matches is aggressive enough that they blow the end of the epoxy fire
-cylinder apart without igniting the rest of the igniter.  Might be worth
-trying again using home-made bridge wires on shooter wire ends instead of 
-starting with a commercial e-match?
+cylinder apart without igniting the rest of the igniter.  Next time we'll
+try with home-made bridge wires on shooter wire.
 
 ## Observations ##