Other's Responses
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mmm that donut the teacher drew looks delish.
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Obv. this teacher doesn't know what an elephant is.
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elephant ftw
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"(b) Does the object continue to move after it comes to rest?" - ummmm no.
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The kid is clearly smarter than the teacher. There isn't a correct way to answer that question, unless we live in imagination land where an object can move against another one without creating any friction whatsoever and objects can also contine to move after coming to a rest.........might as well draw an elephant......
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Well, there is an elephant in the way, so... pow.
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No. There is an elephant in the way!
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That's a 100% in my book.
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I think I probably would've commented on the whole "frictionless ramp" thing. But that's just me.
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the kid knows the answer... he is just being smart... his equations are correct...
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mmm that donut the teacher drew looks delish.
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xDDDD pwnzome elephant. A+
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on a "frictionless ramp" (assuming there is no elephant) the object will just be launched back off the ramp and not com to rest until it hits the ground on the other side. For it to come to rest on the ramp, there would have to be friction
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classic
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ಠ_ಠ
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how can something continue to move after it comes to rest?
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This is relevant to elephants, so it is not irrelephant
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looks like the elephant is gonna get smashed by the 3kg-object.. ;D poor elephant.. RIP! :'(
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i love this. we had a sub today in bio class and we finished our labs. the guys started pulling out laptops and were playing dota (they blocked the firewall and knew admin password. i dont know how). afterwards they were done and theyre like hey lets look at funnyexam.com. we came, we saw, we laughed hysterically
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in response to this ===> "(b) Does the object continue to move after it comes to rest?" - ummmm no. I must say, who ever said that is totally retarded. the oject wil rest for a small glimps of time then be shot back up the ramp by the spring...... dear God who ever said that is dumb
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mmm that donut the teacher drew looks delish.
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That was a stupid answer. The kid was doing everything just right. Ug = mgh = (3.00kg)(9.81m/s^2)(5m) = 147J Us = .5kx^2 = .5(100N/m)x^2 By the Work-Energy Theorem: Ei = Ef Ug = Us mgh = .5kx^2 x = sqrt(2mgh/k) x = sqrt[2(3.00kg)(9.81m/s^2)(5m)/(100N/m)] x = sqrt(2.943m^2) x = 1.72m
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If I had points to spare, I would totally do this
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hahahaha. thats not an elephant thats a mouse! hahaha, real funny though.
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WTF!?! the work should at least count as some part of a grade right...? I mean... don't we all have to show it?
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someone get that elephant out of v way
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That question is scientifically flawed. The elephant IS in the way. Kudos to the kid!
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WRONG! The elephant is not on a skateboard! *ba dum tss*
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I LOVE THIS ANSWER XD!
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ahahaha
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wow i know whose this is :)
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look out elephant!...its coming to spank you!!
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E P I C F A I L U R E
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QUOTE: <> Sure it does dumbass that's what happens when you push something against a spring.">> umm ur the dumbass? after all, the definition of something coming to rest is that it stops moving....and even if u say that thats not it, look at the second part of that question. they r apparently using 2 different definitions for "coming to rest"....fail test!
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Elaphant=FTW
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Holy shit. I know this kid :D I was in his class. I lol'd so hard when I saw his test back.
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QUOTE: << “(b) Does the object continue to move after it comes to rest?” – ummmm no.>> Sure it does dumbass that's what happens when you push something against a spring.
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At all the retards commenting on the frictionless ramp. Unless you're trolling (in which case you aren't a retard), this is theoretical physics. Anyone with half a brain knows that a frictionless ramp doesn't exist.
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Hehe the teacher drew a boob :P
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It's on a slope... By coming to rest the professor is asking if it will stop on the slope completely. Since it's on a slope, it would need to come to rest before it continued back down the slope. Therefore (b) is stated correctly.
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This is a much more complicated question that it appears to be. Gravity, slope, spring (oh god). Should have added friction into the equation and just made it the only question.
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That problem is so easy. All you have to do is set 1/2kx^2 equal to mgh and solve for x.
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All hail the mighty elefant, dickheads!
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Um, if it moved up the slope after coming to "rest" it wouldn't have been at rest, and how could it stop and come to "rest" again midway back up the slope. Can the person who drew the elephant give the teacher a FAIL? Actually, I think he/she did in the only way that makes sense.
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Oh god, I literally LOL'd.
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ಠ_ಠ
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Dude most people draw a 0 and O the same. How many f**king ways are there to draw a zero and a circle?
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mmm that donut the teacher drew looks delish.
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Dambo? Is it really you?
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"The kid is clearly smarter than the teacher. There isn't a correct way to answer that question, unless we live in imagination land where an object can move against another one without creating any friction whatsoever and objects can also contine to move after coming to a rest.........might as well draw an elephant......" Its called physics. sometimes in questions they 'neglect' air resistance, friction etc.
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this are really nice
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hahahahahahahahahahahahahahahahahahahahahahahahaha ROFLLMAOLOL
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The teacher made it Super elephant ball
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That problem is pretty easy. You just have to set 1/2kx^2 equal to mgh and solve for x.
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whats bad he drew a fantastic elephant and there is a good looking donut in the corner
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its fake. Look at the 0 then look at the O in no. similar?
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hahahaha i did this
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i found x! "... x"
mmm that donut the teacher drew looks delish.