1st note: If right i <3 youSharkyMcshark wrote:
Ok I've got this....
H = 4.4 sin(0.2t) + 110 ----> at t=0 gives 110, and the max value attainable is 114.4
therefore
rate of change of height = 0.2 x (4.4 cos(0.2t)) -----> gives a rate of change of 0.2 at t=0
therefore
h(24) = 4.4 sin(4.8) + 110
= 105.617 (3 dp)
h48 = 4.4 sin (9.6) + 110
= 109.232 (3 dp)
Can I has biscuit?
Last edited by SharkyMcshark (2007-11-26 18:54:29)
Once agian what is 3dp?SharkyMcshark wrote:
Ok I've got this....
H = 4.4 sin((1/22)t) + 110 ----> at t=0 gives 110, and the max value attainable is 114.4
therefore
rate of change of height = 1/22 x (4.4 cos(0.2t)) -----> gives a rate of change of 0.2 at t=0
= 0.2 cos ((1/22)t)
therefore
h(24) = 4.4 sin(24/22) + 110
= 113.903 (3 dp)
h(48) = 4.4 sin (48/22) + 110
= 113.604 (3 dp)
That would be how I would approach this question (I got an A for calculus too... a year mark of 81%)
Can I has biscuit?
What I got wrong was that kt x 4.4 had to equal 0.2, and the mistake I made was just having 0.2t.
So yeah that should do it.
My bad
OK 3dp means 3 decimal places.Liberal-Sl@yer wrote:
Once agian what is 3dp?SharkyMcshark wrote:
Ok I've got this....
H = 4.4 sin((1/22)t) + 110 ----> at t=0 gives 110, and the max value attainable is 114.4
therefore
rate of change of height = 1/22 x (4.4 cos(0.2t)) -----> gives a rate of change of 0.2 at t=0
= 0.2 cos ((1/22)t)
therefore
h(24) = 4.4 sin(24/22) + 110
= 113.903 (3 dp)
h(48) = 4.4 sin (48/22) + 110
= 113.604 (3 dp)
That would be how I would approach this question (I got an A for calculus too... a year mark of 81%)
Can I has biscuit?
What I got wrong was that kt x 4.4 had to equal 0.2, and the mistake I made was just having 0.2t.
So yeah that should do it.
My bad
Also how did you get these numbers and what do they mean because i have to actually explain this in words
Wait nvm i learned SHM a fe chapters back but i didnt member it k thnx man ur a lifesaver (and not a fruity one =P)SharkyMcshark wrote:
OK 3dp means 3 decimal places.Liberal-Sl@yer wrote:
Once agian what is 3dp?SharkyMcshark wrote:
Ok I've got this....
H = 4.4 sin((1/22)t) + 110 ----> at t=0 gives 110, and the max value attainable is 114.4
therefore
rate of change of height = 1/22 x (4.4 cos(0.2t)) -----> gives a rate of change of 0.2 at t=0
= 0.2 cos ((1/22)t)
therefore
h(24) = 4.4 sin(24/22) + 110
= 113.903 (3 dp)
h(48) = 4.4 sin (48/22) + 110
= 113.604 (3 dp)
That would be how I would approach this question (I got an A for calculus too... a year mark of 81%)
Can I has biscuit?
What I got wrong was that kt x 4.4 had to equal 0.2, and the mistake I made was just having 0.2t.
So yeah that should do it.
My bad
Also how did you get these numbers and what do they mean because i have to actually explain this in words
The question is one of "Simple Harmonic Motion" - or at least that's how I would have done it if I'd seen this in an exam.
The idea of SHM is that the level of water oscillates around a certain point (in the case of water the average height level, which is 110 in this case)
http://home.alltel.net/okrebs/C3-7.gif
Thats the sin graph, and it shows the oscillations around the point. sin (0) = 0, which means when t = 0 the water height is at the mean level. Also, the highest value sin(x) can take on is 1 (at 0.5xpi, 2.5 xpi etc etc). Therefore if the mean level of the water is 110, and it is at that point at t=0, therefore 0 + k = 110, k = 110
Therefore 4.4 sin ((1/22) t) + 100 is the water level.
Now, when deriving sin(kt), the derivative is kcos (kt), and as the rate of change of water level at t=0 is 0.2, and cos(0) = 1, then 4.4xk = 0.2, k = 1/22.
And then you substitute the numbers into the water height equation. t is hours right?
Last edited by Liberal-Sl@yer (2007-11-26 19:36:10)
WAIT would that work for a derivative equation when the rate of change is constantly changing?SharkyMcshark wrote:
OK 3dp means 3 decimal places.Liberal-Sl@yer wrote:
Once agian what is 3dp?SharkyMcshark wrote:
Ok I've got this....
H = 4.4 sin((1/22)t) + 110 ----> at t=0 gives 110, and the max value attainable is 114.4
therefore
rate of change of height = 1/22 x (4.4 cos(0.2t)) -----> gives a rate of change of 0.2 at t=0
= 0.2 cos ((1/22)t)
therefore
h(24) = 4.4 sin(24/22) + 110
= 113.903 (3 dp)
h(48) = 4.4 sin (48/22) + 110
= 113.604 (3 dp)
That would be how I would approach this question (I got an A for calculus too... a year mark of 81%)
Can I has biscuit?
What I got wrong was that kt x 4.4 had to equal 0.2, and the mistake I made was just having 0.2t.
So yeah that should do it.
My bad
Also how did you get these numbers and what do they mean because i have to actually explain this in words
The question is one of "Simple Harmonic Motion" - or at least that's how I would have done it if I'd seen this in an exam.
The idea of SHM is that the level of water oscillates around a certain point (in the case of water the average height level, which is 110 in this case)
http://home.alltel.net/okrebs/C3-7.gif
Thats the sin graph, and it shows the oscillations around the point. sin (0) = 0, which means when t = 0 the water height is at the mean level. Also, the highest value sin(x) can take on is 1 (at 0.5xpi, 2.5 xpi etc etc). Therefore if the mean level of the water is 110, and it is at that point at t=0, therefore 0 + k = 110, k = 110
Therefore 4.4 sin ((1/22) t) + 100 is the water level.
Now, when deriving sin(kt), the derivative is kcos (kt), and as the rate of change of water level at t=0 is 0.2, and cos(0) = 1, then 4.4xk = 0.2, k = 1/22.
And then you substitute the numbers into the water height equation. t is hours right?
can you tell me where the 4.4 comes from?nukchebi0 wrote:
Yes. The entire portion of the height graph is concave downward, which means the derivative (rate of change) is constantly changing.
ah ok thanksnukchebi0 wrote:
The sin function has a max value of 1. Multiplying it by 4.4 will get 4.4, and adding this to the 110 gets the peak value of 114.4.
because 1/22 x 4.4 = 0.2, which is the rate of change at t=0Liberal-Sl@yer wrote:
last question where does he get the 1/22?
yay thanksSharkyMcshark wrote:
because 1/22 x 4.4 = 0.2, which is the rate of change at t=0Liberal-Sl@yer wrote:
last question where does he get the 1/22?
