notSure i
⑭
w
↑
g
The bottle rests at a distance of 1.5m from the center of the horizontal platform, if the coefficient
of the static friction between the bottle and the platform is M =0.3 , determine
9) write down the acceleration vector of the bottle (in Cartesian or
Cylindrical Coordinates) in terms
of and the acceleration the Bottle at rest relative to the
angular velocity angular assuming stays
platform
Cylindrical
2stance constrate
:
distance is constant is
aB =
(t-Wir)Eo +
(Gr +
-
is wr + 15
. To
B) Write down an
Expression of the absolute acceleration of the bottle in terms of the
acceleration
angular velocity and
angular
:
at M5a)"
(1 5 cr2)2 +
.
, -S
-
Static friction :
Ja Ms N
w-axis
F
f
=
ma
yaus- · N =
mg
No
ma
=
&
f =
ma
MsN =
ma
Ms ma
Ag
=
a =
Msg =
0 3 98
.
+
.
9 3 mls
(
But
they wantso from a 1 5C
&
- =
.
.
part a
2. 943 =
1 5C
.
&
1 962
. rad/s
-
part # : +
1 5w" . =
@
W =
1 4007
. rad Is
⑭
w
↑
g
The bottle rests at a distance of 1.5m from the center of the horizontal platform, if the coefficient
of the static friction between the bottle and the platform is M =0.3 , determine
9) write down the acceleration vector of the bottle (in Cartesian or
Cylindrical Coordinates) in terms
of and the acceleration the Bottle at rest relative to the
angular velocity angular assuming stays
platform
Cylindrical
2stance constrate
:
distance is constant is
aB =
(t-Wir)Eo +
(Gr +
-
is wr + 15
. To
B) Write down an
Expression of the absolute acceleration of the bottle in terms of the
acceleration
angular velocity and
angular
:
at M5a)"
(1 5 cr2)2 +
.
, -S
-
Static friction :
Ja Ms N
w-axis
F
f
=
ma
yaus- · N =
mg
No
ma
=
&
f =
ma
MsN =
ma
Ms ma
Ag
=
a =
Msg =
0 3 98
.
+
.
9 3 mls
(
But
they wantso from a 1 5C
&
- =
.
.
part a
2. 943 =
1 5C
.
&
1 962
. rad/s
-
part # : +
1 5w" . =
@
W =
1 4007
. rad Is
