Statics - living matter lab

(Difference between revisions)

Latest revision as of 15:43, 4 June 2011

1 spring 11 - e14 - applied mechanics: statics
2 goals
3 grading
4 syllabus

[edit] spring 11 - e14 - applied mechanics: statics

ellen kuhl wed 2:30pm, durand 217
charbel eid, tue 6:00pm, durand 203
chris ploch wed 5:00pm, durand 393
julianne gould, thu 10:00pm, durand 203
estevan mendoza thu 1:00pm, durand 393

mon wed fri 12:50-2:05, 370-370

[edit] goals

why do things break? to reliably predict what’s going on inside a structure, we need to know the forces that act on it. it’s newton’s law that helps us to determine these forces. basically, this class is all about newton’s law, force equilibrium, and its application to civil, mechanical, aerospace, and biological problems. we explore it for particles first, then for two-dimensional, and finally for three-dimensional systems. first we look at the structure from the outside, then from the inside. we learn how to identify, formulate, and solve engineering problems. to do so, you should be familiar with and not afraid of maths, vectors, and basic physics.

[edit] grading

20 % homework - 5 homework assignments, 4% each
25 % midterm 1 - closed book, closed notes, one single page cheat sheet
25 % midterm 2 - take home exam
25 % final - closed book, closed notes, one single page cheat sheet

the best of the three exams will count 30% towards your final grade

[edit] syllabus

	w01		force week	ch 1-2
day	date		topic	chapter	notes/slides
mon	mar	28	what's statics?	1.1-1.5	n01,s01
wed	mar	30	what's a 2d force?	2.1-2.4	n02,s02
fri	apr	01	what's a 3d force?	2.5-2.9	n03,s03
	w02		particle week	ch 3
mon	apr	04	what's a free body diagram at a point?	3.1-3.2	n04,s04
wed	apr	06	what's force equilibrium at a point?	3.3-3.4	n05,s05
fri	apr	08	problem session 1		h01
	w03		moment week	ch 4
mon	apr	11	what's a moment?	4.1-4.4	n06,s06
wed	apr	13	what's a couple? what's distributed loading?	4.5-4.7	n07,s07
fri	apr	15	problem session 2		h02
	w04		practice week	ch 1-4
mon	apr	18	problems, problem, problems ...
wed	apr	20	midterm 1, all day take home, wed 12pm - thu 2pm
fri	apr	22	recover-from-midterm friday / no problem session
	w05		2d equilibrium week	ch 5
mon	apr	25	what's a free body diagram of a 2d system?	5.1-5.2	n08,s08
wed	apr	27	what force and moment equilibrium in 2d?	5.3-5.4	n09,s09
fri	apr	29	problem session 3		h03
	w06		3d equilibrium week	ch 5
mon	may	02	what's a free body diagram of a 3d system?	5.5	n10,s10
wed	may	04	what force and moment equilibrium in 3d?	5.6-5.7	n11,s11
fri	may	06	problem session 4		h04
	w07		structures week	ch 6
mon	may	09	what's truss structure?	6.1-6.3	n12,s12
wed	may	11	what's a frame?	6.6	n13,s13
fri	may	13	problem session 5
	w08		internal force week	ch 7
mon	may	16	what's inside?	7.1	n14,s14
wed	may	18	midterm 2, in class, closed book, 1 cheat sheet	cubberley
fri	may	20	what's a shear and moment diagram?	7.2-7.3	n15,s15
	w09		friction and center week	ch 8-9
mon	may	23	what's friction?	8.1-8.2	n16,s16
wed	may	25	what's the center?	9.1-9.2	n17,s17
fri	may	27	problem session 6		h05
	w10		that's it week
mon	may	30	memorial day / no class
wed	jun	01	what's a was this all about?	rep 1-9	n18,s18
fri	jun	03	end of quarter / no class
sun	jun	05	makeup final, in class, closed book, 1 cheat sheet	530-127
mon	jun	06	final, in class, closed book, 1 cheat sheet	cubaud

download syllabus here

Retrieved from "http://biomechanics.stanford.edu/cgi-bin/index.php?title=Statics&oldid=4393"

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-e14 - [[statics]] <br>
+e14 - [[statics]] - [http://www.youtube.com/watch?v=lgQwfL_LTFY e14 on youtube] <br>
 [http://biomechanics.stanford.edu/People ellen kuhl] wed 2:30pm, durand 217<br>
@@ Line 22: / Line 22: @@
 why do things break? to reliably predict what’s going on inside a structure, we need to know the forces that act on it. it’s newton’s law that helps us to determine these forces. basically, this class is all about newton’s law, force equilibrium, and its application to civil, mechanical, aerospace, and biological problems. we explore it for particles first, then for two-dimensional, and finally for three-dimensional systems. first we look at the structure from the outside, then from the inside. we learn how to identify, formulate, and solve engineering problems.  to do so, you should be familiar with and not afraid of maths, vectors, and basic physics.
-<div>
+<html>
-[[Image:e14_jump.jpg|720px|left]]
+    <center>
-</div>
+    <table>
-<div class="spacer">&nbsp;</div>
+        <tr>
+        <td><img src="e14_pics/e14_26.jpg">
+        <td><img src="e14_pics/e14_24.jpg">
+        <td><img src="e14_pics/e14_06.jpg">
+       </tr>
+        <tr>
+        <td><img src="e14_pics/e14_25.jpg">
+        <td><img src="e14_pics/e14_09.jpg">
+        <td><img src="e14_pics/e14_15.jpg">
+       </tr>
+        <tr>
+        <td><img src="e14_pics/e14_11.jpg">
+        <td><img src="e14_pics/e14_02.jpg">
+        <td><img src="e14_pics/e14_16.jpg">
+       </tr>
+        <tr>
+        <td><img src="e14_pics/e14_12.jpg">
+        <td><img src="e14_pics/e14_19.jpg">
+        <td><img src="e14_pics/e14_27.jpg">
+        </tr>
+    </table>
+    </center>
+</html>
 ==grading==
@@ Line 54: / Line 76: @@
 | mon || apr || 04 || what's a free body diagram at a point? || 3.1-3.2||[http://biomechanics.stanford.edu/e14/e14_n04.pdf n04],[http://biomechanics.stanford.edu/e14/e14_s04.pdf s04]
 |-
-| wed || apr || 06 || what's force equilibrium at a point?   || 3.3-3.4 ||[http://biomechanics.stanford.edu/e14/e14_s05.pdf s05]
+| wed || apr || 06 || what's force equilibrium at a point?   || 3.3-3.4 ||[http://biomechanics.stanford.edu/e14/e14_n05.pdf n05],[http://biomechanics.stanford.edu/e14/e14_s05.pdf s05]
 |-
-| fri || apr || 08 || problem session 1  ||   ||[http://biomechanics.stanford.edu/e14/e14_h01.pdf h01]
+| fri || apr || 08 || problem session 1  ||   || [http://biomechanics.stanford.edu/e14/e14_h01.pdf h01]
 |-
 !     !! w03  !! !! moment week !! ch 4 !!
 |-
-| mon || apr || 11 || what's a moment? || 4.1-4.4 ||[http://biomechanics.stanford.edu/e14/e14_s06.pdf s06]
+| mon || apr || 11 || what's a moment? || 4.1-4.4 ||[http://biomechanics.stanford.edu/e14/e14_n06.pdf n06],[http://biomechanics.stanford.edu/e14/e14_s06.pdf s06]
 |-
-| wed || apr || 13 || what's a couple? what's distributed loading? || 4.5-4.7 ||[http://biomechanics.stanford.edu/e14/e14_s07.pdf s07]
+| wed || apr || 13 || what's a couple? what's distributed loading? || 4.5-4.7 ||[http://biomechanics.stanford.edu/e14/e14_n07.pdf n07],[http://biomechanics.stanford.edu/e14/e14_s07.pdf s07]
 |-
 | fri || apr || 15 || problem session 2  ||  ||[http://biomechanics.stanford.edu/e14/e14_h02.pdf h02]
@@ Line 76: / Line 98: @@
 !     !! w05  !! !! 2d equilibrium week !! ch 5 !!
 |-
-| mon || apr || 25 || what's a free body diagram of a 2d system? || 5.1-5.2 ||[http://biomechanics.stanford.edu/e14/e14_s08.pdf s08]
+| mon || apr || 25 || what's a free body diagram of a 2d system? || 5.1-5.2 ||[http://biomechanics.stanford.edu/e14/e14_n08.pdf n08],[http://biomechanics.stanford.edu/e14/e14_s08.pdf s08]
 |-
-| wed || apr || 27 || what force and moment equilibrium in 2d? || 5.3-5.4 || [http://biomechanics.stanford.edu/e14/e14_s09.pdf s09]
+| wed || apr || 27 || what force and moment equilibrium in 2d? || 5.3-5.4 || [http://biomechanics.stanford.edu/e14/e14_n09.pdf n09],[http://biomechanics.stanford.edu/e14/e14_s09.pdf s09]
 |-
 | fri || apr || 29 || problem session 3  ||  ||[http://biomechanics.stanford.edu/e14/e14_h03.pdf h03]
@@ Line 84: / Line 106: @@
 !     !! w06  !! !! 3d equilibrium week !! ch 5 !!
 |-
-| mon || may || 02 || what's a free body diagram of a 3d system? || 5.5 || [http://biomechanics.stanford.edu/e14/e14_s10.pdf s10]
+| mon || may || 02 || what's a free body diagram of a 3d system? || 5.5 || [http://biomechanics.stanford.edu/e14/e14_n10.pdf n10],[http://biomechanics.stanford.edu/e14/e14_s10.pdf s10]
 |-
-| wed || may || 04 || what force and moment equilibrium in 3d?  || 5.6-5.7 ||
+| wed || may || 04 || what force and moment equilibrium in 3d?  || 5.6-5.7 || [http://biomechanics.stanford.edu/e14/e14_n11.pdf n11],[http://biomechanics.stanford.edu/e14/e14_s11.pdf s11]
 |-
 | fri || may || 06 || problem session 4  ||  ||[http://biomechanics.stanford.edu/e14/e14_h04.pdf h04]
@@ Line 92: / Line 114: @@
 !     !! w07  !! !! structures week !! ch 6 !!
 |-
-| mon || may || 09 || what's truss structure? || 6.1-6.3 ||
+| mon || may || 09 || what's truss structure? || 6.1-6.3 || [http://biomechanics.stanford.edu/e14/e14_n12.pdf n12],[http://biomechanics.stanford.edu/e14/e14_s12.pdf s12]
 |-
-| wed || may || 11 || what's a frame? || 6.6 ||
+| wed || may || 11 || what's a frame? || 6.6 || [http://biomechanics.stanford.edu/e14/e14_n13.pdf n13],[http://biomechanics.stanford.edu/e14/e14_s13.pdf s13]
 |-
 | fri || may || 13 || problem session 5  ||  ||
@@ Line 100: / Line 122: @@
 !     !! w08  !! !! internal force week !! ch 7 !!
 |-
-| mon || may || 16 || what's inside? || 7.1 ||
+| mon || may || 16 || what's inside? || 7.1 || [http://biomechanics.stanford.edu/e14/e14_n14.pdf n14],[http://biomechanics.stanford.edu/e14/e14_s14.pdf s14]
 |-
-| wed || may || 18 || midterm 2, in class, closed book, 1 cheat sheet  || chubberly ||
+| wed || may || 18 || midterm 2, in class, closed book, 1 cheat sheet  || cubberley ||
 |-
-| fri || may || 20 || what's a shear and moment diagram?  || 7.2-7.3 ||
+| fri || may || 20 || what's a shear and moment diagram?  || 7.2-7.3 || [http://biomechanics.stanford.edu/e14/e14_n15.pdf n15],[http://biomechanics.stanford.edu/e14/e14_s15.pdf s15]
 |-
 !     !! w09  !! !! friction and center week !! ch 8-9 !!
 |-
-| mon || may || 23 || what's friction? || 8.1-8.2 ||
+| mon || may || 23 || what's friction? || 8.1-8.2 || [http://biomechanics.stanford.edu/e14/e14_n16.pdf n16],[http://biomechanics.stanford.edu/e14/e14_s16.pdf s16]
 |-
-| wed || may || 25 || what's the center? || 9.1-9.2 ||
+| wed || may || 25 || what's the center? || 9.1-9.2 || [http://biomechanics.stanford.edu/e14/e14_n17.pdf n17],[http://biomechanics.stanford.edu/e14/e14_s17.pdf s17]
 |-
-| fri || may || 27 || problem session 6  ||  ||
+| fri || may || 27 || problem session 6  ||  || [http://biomechanics.stanford.edu/e14/e14_h05.pdf h05]
 |-
 !     !! w10  !! !! that's it week !!  !!
@@ Line 118: / Line 140: @@
 | mon || may || 30 || memorial day / no class ||   ||
 |-
-| wed || jun || 01 || what's a was this all about? ||   ||
+| wed || jun || 01 || what's a was this all about? || rep 1-9 || [http://biomechanics.stanford.edu/e14/e14_n18.pdf n18],[http://biomechanics.stanford.edu/e14/e14_s18.pdf s18]
 |-
 | fri || jun || 03 || end of quarter / no class  ||  ||
 |-
-| sat || jun || 04 || problems, problems, problems ...  ||  ||
+| sun || jun || 05 || makeup final, in class, closed book, 1 cheat sheet  || 530-127 ||
 |-
-| mon || jun || 06 || final, in class, closed book, 1 cheat sheet  ||  ||
+| mon || jun || 06 || final, in class, closed book, 1 cheat sheet  || cubaud ||
 |-
 |}
 [http://biomechanics.stanford.edu/e14/e14_syllabus.pdf download syllabus here]
+<div>
+[[Image:e14_jump.jpg|720px|left]]
+</div>
+<div class="spacer">&nbsp;</div>

Latest revision as of 15:43, 4 June 2011

Contents

[edit] spring 11 - e14 - applied mechanics: statics

[edit] goals

[edit] grading

[edit] syllabus