06-25-2019, 05:20 PM
this is the full problem.
Math Help
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06-25-2019, 05:23 PM
(This post was last modified: 06-25-2019, 05:27 PM by MrBossmanJr.)
Would you need to multiply the top and bottom by (cos+1)? Hmm...
Edit: Nevermind. I don't know anything anymore lol.
Georgia Institute of Technology: MS in Analytics (3/32 Credits)
Boston University: MS in Software Development Thomas Edison State University: BA in Liberal Studies
06-25-2019, 05:29 PM
(This post was last modified: 06-25-2019, 05:45 PM by Giantzebra.)
I tried that .... I'm not sure .... Maybe there are some trig properties that I'm missing ...
I think you need to graph it but I'm not sure how.
06-25-2019, 05:50 PM
(This post was last modified: 06-25-2019, 05:57 PM by MrBossmanJr.)
Is the answer -1/2?
I think you have to use L'Hospitals Rule. f(0) = (cosx-1)/(xsinx) so the denominator is basically 0*0 or x*x at this point which is x^2 cosx-1 can be written as -1+cosx or -(1-cosx) Then you apply the rule and do the derivative of top and bottom the top becomes -sinx and the bottom is 2x the x's cancel and become 1's therefore being -1/2?
Georgia Institute of Technology: MS in Analytics (3/32 Credits)
Boston University: MS in Software Development Thomas Edison State University: BA in Liberal Studies
06-25-2019, 06:13 PM
(06-25-2019, 05:50 PM)MrBossmanJr Wrote: Is the answer -1/2? Ya - that seems like it makes sense. Thanks!
07-09-2019, 11:59 AM
Objects moving in two dimensions can be hard to track, unless you use calculus to handle the motion. If an object is moving so its X coordinate follows the equation X = 2t + 1 and its Y coordinate follows the equation Y = t2 + 2, where t is the time in seconds, what is the object’s two-dimensional speed at t = 2 seconds?
How do you solve this problem?
07-09-2019, 12:59 PM
(This post was last modified: 07-09-2019, 01:04 PM by MrBossmanJr.)
(07-09-2019, 11:59 AM)Giantzebra Wrote: Objects moving in two dimensions can be hard to track, unless you use calculus to handle the motion. If an object is moving so its X coordinate follows the equation X = 2t + 1 and its Y coordinate follows the equation Y = t2 + 2, where t is the time in seconds, what is the object’s two-dimensional speed at t = 2 seconds? Don't you just differentiate both the equations? So x = t and y = 2t. Plug in t = 2 and you get (2,4). It's asking for speed so you do differentiate. Speed (not a vector) is just the positive value of velocity (vector). The first equation should provide distance. Differentiating it once will provide velocity and another time will output acceleration.
Georgia Institute of Technology: MS in Analytics (3/32 Credits)
Boston University: MS in Software Development Thomas Edison State University: BA in Liberal Studies
07-09-2019, 01:20 PM
(07-09-2019, 12:59 PM)MrBossmanJr Wrote:But the correct answer to the question was √20 feet per second(07-09-2019, 11:59 AM)Giantzebra Wrote: Objects moving in two dimensions can be hard to track, unless you use calculus to handle the motion. If an object is moving so its X coordinate follows the equation X = 2t + 1 and its Y coordinate follows the equation Y = t2 + 2, where t is the time in seconds, what is the object’s two-dimensional speed at t = 2 seconds?
07-09-2019, 01:24 PM
(This post was last modified: 07-09-2019, 01:25 PM by MrBossmanJr.)
Ahhh, my bad forgot to mention. I found you the x and y values, but you need to do the pyrgahteka theorem to find the answer. 2^2 + 4^2 and square root the answer. Therefore, you come out with sq rt 20.
EDIT: My spelling is terrible and I can't remember the guy's name lol.
Georgia Institute of Technology: MS in Analytics (3/32 Credits)
Boston University: MS in Software Development Thomas Edison State University: BA in Liberal Studies
07-09-2019, 01:29 PM
(This post was last modified: 07-09-2019, 01:36 PM by Giantzebra.)
(07-09-2019, 01:24 PM)MrBossmanJr Wrote: Ahhh, my bad forgot to mention. I found you the x and y values, but you need to do the pyrgahteka theorem to find the answer. 2^2 + 4^2 and square root the answer. Therefore, you come out with sq rt 20. Thanks. Do you also know how the extreme value theorem can be true if f(x) = x is continuous on every closed interval but has no minimum or maximum? (07-09-2019, 01:29 PM)Giantzebra Wrote:(07-09-2019, 01:24 PM)MrBossmanJr Wrote: Ahhh, my bad forgot to mention. I found you the x and y values, but you need to do the pyrgahteka theorem to find the answer. 2^2 + 4^2 and square root the answer. Therefore, you come out with sq rt 20. And, why do the Pythagorean theorem? |
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