freaking_out
Saddam's new life
attached is the question....btw, is this in ze course?
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Q.circular motion (1 Viewer)
- Thread starter freaking_out
- Start date
I 've seen this1 in Year10Physics in my country
Angular velocity of the object: w= 2*2(pi)/1=4(pi)
Friction play the role of centripetal force in this case; and the greatest value for friction is Mmg (ortherwise it will slip out of the disc):
Fc=mw2r=Mmg
--> m*16*(pi)2*r=Mmg
-->r=Mg/16*(pi)2~0.06M metres
--> max distance r~ 6M cm
Angular velocity of the object: w= 2*2(pi)/1=4(pi)
Friction play the role of centripetal force in this case; and the greatest value for friction is Mmg (ortherwise it will slip out of the disc):
Fc=mw2r=Mmg
--> m*16*(pi)2*r=Mmg
-->r=Mg/16*(pi)2~0.06M metres
--> max distance r~ 6M cm
freaking_out
Saddam's new life
hey, thanks for the reply, i get the mathematics, but i don't get the actual question/concept...
can u explain to me why, the "friction plays the role of centripetal force"?? and can u also explain to me this question in general?
can u explain to me why, the "friction plays the role of centripetal force"?? and can u also explain to me this question in general?
In general, when U have a circular motion ,U need a centripetal force and in this case there 's no others than vertically gravity,and reaction force so Friction must be centripetal
(Actually,when the object occupy circular motion it'll tend to fall out of the disc,'n the friction resist this motion thus acting as centripetal force )
(Actually,when the object occupy circular motion it'll tend to fall out of the disc,'n the friction resist this motion thus acting as centripetal force
)
freaking_out
Saddam's new life
hmm...the answer at the book says the following which makes me more confused:
"the frictional force keeping object on the table is Mmg. The object will remain on the table if:
centripetal force<=friction
they, then take the above inequality and work out:
r<= 6Mcm
then it concludes:
"so the object can be placed nearly 6Mcm from the centre of
the disc in order to stay on it."
can someone explain?
"the frictional force keeping object on the table is Mmg. The object will remain on the table if:
centripetal force<=friction
they, then take the above inequality and work out:
r<= 6Mcm
then it concludes:
"so the object can be placed nearly 6Mcm from the centre of
the disc in order to stay on it."
can someone explain?
N
ND
Guest
Which part is it that you don't understand? Is it about the centripetal force <= friction? If so, think about it, the only thing keeping the object in the table is the fritional force. If the frictional force is not great enough to hold on, the circular motion will push it off.Originally posted by freaking_out
hmm...the answer at the book says the following which makes me more confused:
"the frictional force keeping object on the table is Mmg. The object will remain on the table if:
centripetal force<=friction
they, then take the above inequality and work out:
r<= 6Mcm
then it concludes:
"so the object can be placed nearly 6Mcm from the centre of
the disc in order to stay on it."
can someone explain?
edit: haha you went to all the trouble of scanning it and uploading it just so you don't have ot write like four lines?
edit 2: i should probabliy rephrase that.
freaking_out
Saddam's new life
but technically speaking, doesn't cetripetal force try to pull the mass towards the centre?? if so then how is it gonna fall off the "circular disk" in the first place....or is this getting into centrigual force, in where particles get thrown out?
N
ND
Guest
Read my edit, rephrased. Yeh i meant to say centrifugal force instead of centripetal, i think the book did too. Btw centrifugal force = mv^2/r too.Originally posted by freaking_out
but technically speaking, doesn't cetripetal force try to pull the mass towards the centre?? if so then how is it gonna fall off the "circular disk" in the first place....or is this getting into centrigual force, in where particles get thrown out?