American muscle or Honda?

spanner in works lol

in my simple mind.........

When i picture a honda there is a smicky mc smick at the wheel, its decked, screaming its head off, spinning one wheel everywhere and all his mates are following in cars that look exactly the same

When i picture a yank tank there is smoke everywhere, a v8 sound like the world is going to end and there is two big black tyre lines following it everywhere lol

For those that think i love ford and only ford - how about opening your eyes and reading my sig?????
I appreciate lots of other cars, i just hate vtec. I think it's overhyped. In the 'real world' as everyone likes to quote, the higher bhp figures of vtec mean nothing when combined with the crap torque (for engine cc) they produce. Suppose i'm not allowed that opinion as this is uber honda loving heaven?

What have you done thats soo different? POT KETTLE BLACK

I see i've been given the age old Skiman status. I don't really care what you think of me, but don't tar all the ford men with the same brush.

Have you ever been to a proper Ford show? Ever walked round and talked to the guys there? As a matter of fact, any of the ford haters should go to the next one and see how all the guys are. It'd soon open your eyes to how a proper club gets on.

If disagreeing with you and putting my points across make me an idiot, then so be it. Just because what i think differs from what you think doesn't make it wrong. Calling me undereducated is like being back in primary school and it shows you've no better, meaningful points to put across.

Ford are soo crap they've consistantly been producing top selling cars - Suppose that makes all the people who bought them idiots like me for liking Ford? Honda are no better or different.

Again, i've never said Ford are the best marque out there have i? Stop assuming i am. I've said to many people i hate fords and i'm not lying - if there's something i don't like about them, i'll say it, not cover it up. RS turbos for example - i hate them, i think they are ****e in every way. They rust, are slow, handling/braking is usually crap due to their age... I could go on and on. I also know how to make them better and its knowledge i share when and where i can.

I'll show respect to Hondas i actually like. Unfortunately for me one of them is now owned by you... I love Marks crx, its soo much fun. In fact i'd considered making him an offer and using it as a track car.

As for my opinion, i'll fuc king well like and dislike what i want chum, no amount of you internet 'superiority' you seem to think you'll have will change that.



*Disclaimer* Some of that may be spelt wrong, but i'm tired, hungry and can't type very well, so lick the back of them

I'm too thick to talk apparantly

i didnt say you were thick, and perhaps its my lack of ability to put points across that meant i wasnt "hating" on you as such, more hating the fanboy way in which one or two of your points were put. Which i agree, i am probably identical to you in that manner just my likes are not the same as yours.

Either way we are enthusiasts of our own cars, we are able to see fault with them, and as such from experience we both know what needs done to make them "acceptable" cars. Unfortunately I am a stuborn **** and dont overly enjoy seeing my passion being put down by those with absolutely minimum experience on the same subject. Which is where this entire post by post reply has stemmed from - basically you are as much of a ****

I guess it must be unfortunate for you to see me then owning the one honda you did appreciate, as opposed to some schmicky mcschmick taking it and essentially destroying what is a fantastic little car.

P.S Ford are still pap

Gaz - cos im skint

I feel an epic thread coming on here

US Muscle cars FTW...pity it costs a fortune to run them

Try being a Ford owner on here, then you'll know all about having you marque put down! (Not aimed at you) Any ford related post always has people on, saying things like it'll blow up/rust/break down. It gets annoying after a while.

I genuinely love your crx, its the only one i've seen that looks right. Plus it was the first quick car i was ever in.

I know ford are ****e, my sig says so!

I know fannys fart, i still love them

my sig says so!!!

lol

I cant imagine being a ford owner in this day and age, sorry

I think this quote should be directed at all N/A engines instead of Honda's, a K20a produces practically the same torque as any other 2.0 engine, c20xe, zetec etc. Just as the Crx made similar if not more torque than the 205 1.6gti, corolla gti and other hatchs of that era. In the real world I've seen alot of honda's beating cars with more power and torque, there's alot to be said for bhp/revs even though everyone likes to talk about torque these days.

Paul you're so funny. I see you haven't changed either!!
I used to love our Ford v Honda nights!!!!
Oh back in the days..........

Shamelessly robbed from CRX-UK

Torque is only half the story. While torque is the force created, it doesn't account for the importance of revs.
Imagine trying to remove a wheel nut from a car with a standard wheelbrace and all the torque you could produce can't loosen the "Kwik fit special" airgunned super tightened wheel bolts. You apply lots of force, i.e. torque, but you still can't generate any rpm. Therefore nothing is accomplished, no power generated despite your cursing and kicking. So - Without rpm, torque is useless!

on a similar theme..

a quide to horsepower versus Torque:

Some people say horsepower is how long you can
continue to make torque. That's sorta true, but it's "long" in terms of higher rpms, not time directly.

Think of it in this old fashioned way. Put a pulley on the crankshaft
of the engine with a 1 ft radius (2 ft diameter). Attach a long rope to that pulley.

Dangle it over a 6283 ft cliff, (I chose that distance because the pulley diameter is 2 ft and the circumference is 6.283 ft and I want to move it for one minute at 1000 revolutions per minute.) add a 200 lb weight to the end.
If the engine can develop 200 ft-lbs of torque it can lift that 200 lb weight directly.

If it does it at only 1000 rpms then it takes 1 minute to lift 200 lbs, 6283 ft up. (incidentally for those wonder where the acceleration is.. It's gravity acting on the weight at 1G)

But let's say it can't rev any faster than 1000 rpms (like a big cruise boat diesel engine), then the max hp is only 200 ft-lbs * 1000 rpms / 5252 = 38hp. Pitiful.

We don't want to wait a full minute, so we need to lift the weight faster.
So now we use an engine that can make 200 ft-lbs of torque but at 2000 rpms, it can lift that same 200 ft-lbs weight twice as fast, pulling it 6283 ft up the cliff in only 30 seconds. max HP = 200 ft-lbs * 2000 rpms / 5252 = 76 hp.

Ok.. So let's give this engine some serious guts, better breathing, higher revving, larger displacement. Rev it all the way up to 5252rpms, and get it to still make 200 ft-lbs of torque (no mean feat). Now it takes only 11.4 seconds to lift a 200 lb weight up a 6283 ft cliff. And of course HP = 200 ft-lbs * 5252 rpms / 5252 = 200 hp.

There's the basics of hp versus torque as measured at the crank for any
given fixed rpm. When the concept of horsepower was dreamed up,
these are the sorts of applications the steam engines it applied to, were used for. Lifting big weights, pulling things through or over the ground, or turning the entire contents of some factory at a constant rpm.

So what happens when a Honda engine manages to make 150 hp but
only 100 ft-lbs of torque at 8000 rpms? (I didn't choose VTEC numbers because I want round numbers)

Well.. For one it simply won't be able to lift the 200 lb weight with a crank pulley that has a 1 ft radius. It can't. It's only generating 100 ft-lbs of lifting force.

What you need now is gears. Let's put a 2 to 1 gearset between the engine crank and rope pulley. Now the engine is still turning at 8000 rpms, but the pulley is turning at 4000 rpms, and we've effectively doubled its leverage so torque measured at the pulley is 200 ft-lbs again.

Torque at pulley = 200 ft-lbs @ 4000 rpms. So it now can actually lift the 200 lb weight directly, and at 4000 rpms, thats 4 times faster than our original engine. So 15 seconds to lift the 200 lb weight up 6283 ft. Not bad. Moving a 200 lb weight up over 1 vertical mile in only 15 seconds. (Note, 100 ft-lbs * 8000 / 5252 = 200 ft-lbs * 4000 / 5252)

One interesting side note. It's possible for an engine or motor to make torque at 0 rpms.

A steam train engine, for instance has a direct drive from pistons to wheels so when it needs to get moving it can actually generate some ungodly number like 10000 ft-lbs of torque at 0 rpms and thus by our formula HP = 1000 ft-lbs * 0 / 5252 = 0 hp. Cute eh?

Electric motors also can do this. That's why diesel train engines drive use electric motors to turn the wheels, and a big nearly constant rpm engine to power the generator that powers the motors.

Summary so far.
So torque lifts the weight. We can convert low engine torque (Honda engine)
into high usable torque through gearing, but at the cost of speed.
Horspower tells you how fast the weight can be lifted at a constant angular velocity.

Ok.. In the next post I'll explain how this relates to acceleration.

Horsepower, Torque and how you use it to accelerate through gearing
So what's the whole deal with the "torque curve" and why's it important to acceleration?

Well.. only being able to make good torque at a single rpm is not very useful for a road going vehicle.

It's ok for a train engine driving a generator, or factory motor, but no sense for a car. If you only make useful torque at the crank in a very narrow range of rpms then you need lots and lots of gears to keep the torque at the wheels in a useable range as your vehicle's speed
increases.

Maximum acceleration of a car is made possible by maximizing your output torque at the wheels at ALL times. Let's say the torque curve for our original engine that made 200 ft-lbs of torque at 1000 rpms can actually do it between 500 and 1000 rpms (absolutely flat curve) and falls off sharply on either side. (below 500 and above 1000).

It can still accellerate, but it'd need maybe a 2:1 gear to get started, then 1:1 to keep going, and then about 2 overdrive gears to go fast. like 1:2.. 1:4
So here's our gears. 1st: 2:1 2nd: 1:1 3rd: 1:2 4th: 1:4
In first gear at the output wheesl, it'd make 400 ft-lbs of torque to the ground between 250-500 rpms. Second gear.. 200 ft-lbs at 500 to 1000 rpms.. 3rd.. 100 ft-lbs at 1000 to 2000 rpms 4th 50 ft-lbs between 2000 to 4000 rpms.. This engine makes 200 ft-lbs * 1000 / 5252 = 38hp.

By the time you hit the top of 4th gear you're only putting 50 ft-lbs of torque to the ground, but you're moving right along. If you only had to lift only a 50 lb-weight up our cliff you could get there in 15 seconds (not counting acceleration though the gears).

Works the other way around too. A higher revving engine that makes a little torque up high. Let's try a flat torque curve between 2000 and 4000 rpms of only 100 ft-lbs. Let's try to match the torque to the ground of our other engine with gearing. 1st: 4:1 2nd: 2:1 3rd: 1:1 4th: 1:2

So at the ground. 1st gear makes 400 ft-lbs of torque between 500 and 1000 rpms
2nd: 200 ft-lbs between 1000 and 2000 rpms
3rd: 100 ft-lbs between 2000 and 4000 rpms..
and 4th: 50 ft-lbs between 4000 and 8000 rpms.

Oops.. I accidentally made a more powerful engine. I was making the same
torque to the ground at the top of 3rd gear and still have 50 ft-lbs
usable for the next 4000 rpms in 4th. Want to see something cute.
At the crank. 100 ft-lbs * 4000 rpms / 5252 = 76 hp.
At the wheels.. 50ft-lbs * 8000 rpms / 5252 = 76 hp..
(assuming zero drivetrain loss here). You see why it doesn't
matter if you make your dyno pull in 3rd or 4th gear?

So yes. Torque is what does the actual work. With our weight, any
output torque less than 200 ft-lbs will NOT lift it at all. But horsepower
is how FAST we we do the work. And acceleration depends on the engine's
ability to generate torque at more than just one rpm. The fatter
the torque curve is (no matter how small the max torque value), the faster
you can accelerate because the more rpms you have to work with, the
higher the gear ratios and thus the higher your torque at the ground.
You maximize torque to the ground through gearing keeping the engine in the rpm
range where the engine generates the most ground speed for a given torque value.

A car that only generates 50 ft-lbs of torque, but but can do it between 10,0000 and 20,000 rpms will still make 190 hp. You're saying "But Ian, I still need raw TORQUE to accelerateright?" True. But the tires don't need to turn at 20,000 rpms, so there's where I'm going to get my torque. Let's design a single gear. The tires only need to turn at 880 rpms to go 60mph at
the top of 2nd gear. So let's experiment with an effective gear ratio from crank to tires of 20:1. That'd give me 50 * 20 = 1000 ft-lbs of torque at the ground between the engine rpms of 10k and 20k. That'd certainly get you moving just fine. Does it work speedwise? 10,000 rpms / 20 = 500.. 20,000 rpms / 20 = 1000. with 205/50-15 tires that's a speed range of 34mph to 68mph.

Cool.. An engine that generates only 50ft-lbs of torque between 10k and 20k rpms manages to put down 1000 ft-lbs of torque to the ground between 34mph and 68mph in my imaginary 2nd gear. Now just design another half dozen gears and you're good to go. And it'll *feel* like 1000 ft-lbs of torque the entire time too.

An old turbo formula 1 car that makes 1100 hp at 14 thousand rpms.. Lesee.. 412 ft-lbs of torque up there in the stratospheric rpms. Whew. Try a 10:1 effective gearing, that's still like 4000 ft-lbs of torque to the ground at 95mph. Not bad.

So yes, you *feel* torque, but it's torque at the ground, not at the engine. If you can rev high enough, then gearing will increase your effective torque to the ground for a longer period of time. Torque you feel.. torque applied for a large range of rpms equates to faster acceleration, and the highest rpm that you can maintain useful torque will be your peak horsepower number.

The horsepower @ rpm value
gives you some idea of how long the torque curve extends into the rpms.
That's how you use it.

So there it is. Everything you never needed to know about torque and horsepower.

hope that was worth reading, ive read that little articule four or five times now and its good stuff!!

Phil

this was also shameless robbed from a previous thread of mine, in which i pasted this info, i cant remember its true origin.

good read that phil

i did find this one much less taxing though

Obvious bias towards the hondas as his audience was of sound mind

Nicked from here: Redirect

Makes me gutted i dont have the ability to put things down into words

Ah, That has been my desktop for a while now, i want it so bad.