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First Fly Rod, Reel and line Questions??
On 8 Mar 2006 17:05:57 GMT, Scott Seidman
wrote: This feeling was reinforced when I started seeing mid arbor reels. Brilliant! And, as a NCer would say, hilarious. d;o) |
First Fly Rod, Reel and line Questions??
You have a rope pulled snugly around the earth at the equator (diameter
= 7,926 miles +/-). How much length would you need to add to the rope to raise it 6 inches off the earth at all points? ..08 ft. or approx, 1" .960" to be exact. -tom |
First Fly Rod, Reel and line Questions??
On Wed, 08 Mar 2006 16:26:46 GMT, "rb608"
wrote: wrote in message Assuming competent, rational reel design rather than reels "designed to sell," it's not only typical, but mathematically highly probable. For whatever reason, this reminded me of a mathematical problem whose answer is mathematically correct, but (to me anyway) seemed counterintuitive at first. Here ya go: You have a rope pulled snugly around the earth at the equator (diameter = 7,926 miles +/-). How much length would you need to add to the rope to raise it 6 inches off the earth at all points? Joe F OK. You have a piece of fly line wrapped around a pencil (diameter = approx. 1/4"). How much length would you need to add to it to raise it 6 inches off the pencil at all points? You have a chain wrapped around the rear wheel and tire of a tractor (diameter = 5 feet). How much length would you need to add to the chain to raise it 6 inches off the tire at all points? This might provide insight as to why the rope around the equator of the earth seems counterintuitive. Think about the result you want versus to what you're comparing it - using the figure of 7,926 miles is what makes it counterintuitive, because it's the wrong thing to compare with desired result - the 6 inch (radius)/12 inch (diameter) increase. HTH, R |
First Fly Rod, Reel and line Questions??
rw wrote in news:QmEPf.1822$x94.1172
@newsread1.news.pas.earthlink.net: Scott Seidman wrote: "rb608" wrote in news:v1EPf.40384$%I.25893@trnddc03: "William Claspy" wrote in message My guess was 6(pi) inches. It's C=pi(d), so if we add six inches to d (which we had converted from feet to inches), we have C=pi(d+6). Balances out with 6(pi). No? No. You're thinking correctly, but you only got halfway there. You're actually increasing the diameter by a whole foot (6 inches each side). Joe F. c1=pi*(7926 miles)*5280(feet/mile)*12(inches/ft) c2=pi*((7926 miles)*5280(feet/mile)*12(inches/ft)+12 inches) c2-c1=37.69 inches Correct, but much more complicated than necessary. c1 = pi*d c2 = pi*(d+(1 foot)) c2-c1 = pi feet Rats. Distributivity gets me again! -- Scott Reverse name to reply |
First Fly Rod, Reel and line Questions??
On Wed, 08 Mar 2006 16:39:47 GMT, rw
wrote: rb608 wrote: You have a rope pulled snugly around the earth at the equator (diameter = 7,926 miles +/-). How much length would you need to add to the rope to raise it 6 inches off the earth at all points? pi feet hairy palms |
First Fly Rod, Reel and line Questions??
Scott Seidman wrote:
Rats. Distributivity gets me again! There's a way to raise the rope one foot above the surface of the earth without increasing its length at all. Just move it approximately 308 miles toward either pole. Unfortunately, you'll run up against one of the primary tenets of engineering: You can't push a rope. :-) -- Cut "to the chase" for my email address. |
First Fly Rod, Reel and line Questions??
"rw" wrote in message k.net... Scott Seidman wrote: Rats. Distributivity gets me again! There's a way to raise the rope one foot above the surface of the earth without increasing its length at all. Just move it approximately 308 miles toward either pole. Assuming your rope initially follows any circumference other than the equator this is impossible. Unfortunately, you'll run up against one of the primary tenets of engineering: You can't push a rope. :-) Which demonstrates one of the primary failings of engineering AND the value of semantics quite nicely. In fact, you most certainly CAN push a rope. :) Wolfgang |
First Fly Rod, Reel and line Questions??
In article aBDPf.28667$W42.17593@trnddc02, junkmail608
@verizNOSPAMon.net says... wrote in message Assuming competent, rational reel design rather than reels "designed to sell," it's not only typical, but mathematically highly probable. For whatever reason, this reminded me of a mathematical problem whose answer is mathematically correct, but (to me anyway) seemed counterintuitive at first. Here ya go: You have a rope pulled snugly around the earth at the equator (diameter = 7,926 miles +/-). How much length would you need to add to the rope to raise it 6 inches off the earth at all points? Joe F. pi*12" or ~38"? - Ken |
First Fly Rod, Reel and line Questions??
rw wrote:
Scott Seidman wrote: Rats. Distributivity gets me again! There's a way to raise the rope one foot above the surface of the earth without increasing its length at all. Just move it approximately 308 miles toward either pole. Oops. I made a small arithmetic error. It should be approximately .87 miles. :-) -- Cut "to the chase" for my email address. |
First Fly Rod, Reel and line Questions??
Wolfgang wrote:
"rw" wrote in message k.net... Scott Seidman wrote: Rats. Distributivity gets me again! There's a way to raise the rope one foot above the surface of the earth without increasing its length at all. Just move it approximately 308 miles toward either pole. Assuming your rope initially follows any circumference other than the equator this is impossible. That was part of the problem description: "You have a rope pulled snugly around the earth at the equator." -- Cut "to the chase" for my email address. |
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