Any change in velocity, amirite?
Brake*
Sorry, just bugged me ><
depends on if you're being followed by a cyber truck too closely, or not.
So normal people don't have an education? It is brake, how do you people keep making this mistake?
It's an Alfa, "Break" might be the correct terminology /s
Joke of course, I love Alfa's!
Likely something to do with English being a secondary language to the vast majority of the world...
Afaik native speakers make such mistakes more often, since they learned far more of the language by hearing than by reading
Well, I think you answered your own question 😅
Far left pedal is the clutch, not a second "break"
I'm on mobile and could be wrong, but this picture looks like it's an automatic and that's a foot rest, not a clutch (nearly all Fords have a large plate like that in that spot to rest your left foot)
It's generally called the dead pedal and yes, it's basically a footrest for your left foot. This meme is just awful and misspelled brake.
Ahh you know I think you're right
That looks like a dead pedal (foot rest), not a clutch pedal. Normally only the gas pedal has a full pedal face on it. A clutch pedal normally looks like a brake pedal.
Edit: Eh someone already said this but I agree with them.
If you use it wrong enough then “break” becomes the proper spelling.
Brake.
Petrol. Gas isn't even a gas.
*Gasoline or diesel. Petroleum has to be refined first before use in a car.
But it was originally derived from coal gas back in the 3rd quarter of the 19th century, when the first internal combustion engine for transportation application was being developed.
Cookie-Chocolate-Bar
Though probably not intended, my head canon is that OP is referring to how often people misspell it.
Forgot to label Earth as accelerator
Not to mention the driver’s hands and feet!
Is it an accelerator? Or is it a jerk pedal? Technically the gas pedal controls the change in acceleration, right?
I definitely have friends
Technically the gas pedal controls the change in acceleration, right?
Technically it controls the amount of air and/or fuel delivered to the engine (in a gas engine, the pedal directly controls airflow; in a diesel engine it directly controls fuel flow)
A valve controller, yes
Acceleration in physics terms just means a change in velocity. Velocity is speed in a given direction. The steering wheel, gas pedal, and brake pedal all accelerate the vehicle.
No, if there is constant pressure on the accelerator, there is a constant acceleration on the car.
The jerk comes with the rate of change of pressure on the pedal (e.g. if you stomp on it)
That would make the driver the jerk 🤔
Increasing speed -> acceleration Decreasing speed -> negative acceleration Changing direction -> Vector acceleration(change in velocity)
Break Gas? Never heard that expression before. I always thought it was "break wind". 😆💨
Can you fucking learn homonyms if you're going to make an entire ass meme about something?
I learned something today.
I was taught in my younger days that “homonyms” were words that were spelled the same but pronounced differently, and “homophones” were words that were pronounced the same but spelled differently. “Break” and “brake” would then be homophones.
But it turns out “homonym” is the broader category including “homophones,” “homographs,” and words where both are true (same spelling and pronunciation, but different meanings). So homophones are homonyms.
TheMoreYouKnow.gif
P.S. Though Wikipedia says a more technical definition would limit “homonym” to, specifically, the third category, words that are spelled and pronounced the same but with different meanings. They give examples of “stalk” (part of a plant) and “stalk” (follow/harass a person), or “skate” (glide on ice) and “skate” (a type of fish).
P.P.S. This reminds me of the autoantonym (a word that is its own opposite) “cleave,” which can mean “to adhere firmly and closely or loyally and unwaveringly” or “to split or sever (something), especially along a natural line or grain.“ I don’t know if “cleave” is technically a homonym, or if these are simply two definitions for the same word, and I don’t know who would decide that. But it’s still a fun word.
Physicians: "It's all vector addition and differatials?"
Mathematicians: "Always has been."Okay student, now turn the accelerator and feather the accelerator as you accelerate into the curve, then press the accelerator to accelerate your acceleration out the curve.
No, one of them is the "don't accelerate" pedal you use to switch gears.
You're applying acceleration to the gear switcher
Just like I'm applying acceleration to your mom
I think that car has a dead pedal, otherwise that is the fattest clutch pedal I have seen by a longshot.
Is the window my frame of reference?
“Accelerate… Decelerate” — Simon Phoenix
There's this Finnish joke that doesn't translate well, about a physicist who got pulled over by police. "Uh, I guess I accelerated a bit."
Tap for spoiler
(A particle accelerator is a machine that accelerates little bits. Do you get it now?)
*BMW drivers
Well, with Alfas half of those accelerators probably don't work!
(Actually jk, afaik this is only an old-timey joke now)
I don’t get it
I am not smart but this is what I get from this meme.
It’s a play on how physics describes acceleration. In physics acceleration isn’t just about speeding up but any change in velocity.
So:
- Gas = Positive acceleration
- brake = negative acceleration
- steering = velocity takes speed and direction, so acceleration.
Acceleration is a change in velocity. When you press the gas pedal or brake, you feel positive or negative acceleration. When you turn the wheel, you feel sideways acceleration.
Another analogy is force: F=ma. You feel a force if you accelerate, brake, or turn the wheel; all three induce acceleration as defined in physics.
In common usage, "accelerate" means "go faster".
In physics "accelerate" means "change of velocity over time". It doesn't just mean that the velocity increases, just that it changes.
In common usage "velocity" is the same thing as "speed".
In physics "velocity" is "speed in a specific direction". So, "80 km/h" isn't a complete velocity statement. "80 km/h going west" is.
So, a car going at a speed of 80 km/h has a velocity of 80 km/h in the forward direction. Pressing the accelerator causes an acceleration in the forward direction, increasing the speed/velocity. Pressing the brake causes an acceleration in the backward direction, decreasing the speed/velocity. Turning the wheel causes an acceleration in the left/right direction. In this case, the speed might not change, but the velocity changes because the direction of travel changes.
If you imagine blowing on an air hockey puck it's a bit easier to understand. There's a fundamental rule in Physics that F = m × a, force is equal to mass times acceleration. Or, force divided by mass equals acceleration. If you blow on an air hockey puck, you exert a force on it, causing it to accelerate. If the air hockey puck is moving away from you, blowing on it will cause a forward acceleration increasing its velocity. If you blow on it as it's coming towards you, you cause an acceleration backwards, decreasing its velocity. If you blow on it as it's passing by you, you accelerate it sideways. In every case the same F=m × a equation applies, but sometimes the speed gets bigger, sometimes it gets smaller. The trickier one to calculate is when the force causes the direction of travel to change. Then instead of just needing an "x" variable you need "x" and "y", or if you're talking about velocity, vx and vy.
So, in a car, the accelerator increases the engine output which causes a force on the tires that results in a forward acceleration. The brake pedal causes the brakes to exert a force on the tires which results in a backwards acceleration. The steering wheel causes the tires to exert a force on the car accelerating it left or right.
You wouldn’t be able to press a gas with your foot though.
I can imagine a scenario where you a gas is encased in a volume that you can reduce by stepping on it with your foot, thus pressurizing it.
Depends on what you mean by "press" really
Moving your foot through a gas will displace the gas, and there will be a (albiet small) pressure difference around the foot as it moves through the gas. An increase on the side in direction of movement, a decrease on the opposite side of direction of movement, and some vortices on the sides.
Basically a very poorly designed wing.
