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Once a race car's engine is started, it's crucial that the car begin to move very soon. Modern engines are designed to operate when moving through air, which provides necessary cooling. When the cars are stationary, however, mechanical stress and heat builds up quickly, so there is little lag time between starting the engines and moving into the single formation lap that precedes the race start.
It's also a rule in the NASCAR handbook, so that nobody could gain an unfair advantage.
Wow! Everyone is an expert! These days the motors are cooled as they always have been! AIR! Those types of motors do not run well at all, at lower temps, and speeds. The warm up process on a race motor is torture. Those motors are designed to run at 230 degrees, at 10,000 rpms, for 500 miles. When metal heats up, it gets bigger. So, to clearance that motor, at temp, at rpm, for distance, it has to be pretty ill fitting when cold, at low rpm. They knock, rattle, and just do not function well under those conditions. Also, to get the air/fuel mixture proper for the expanded version of the motor, you have to make them run extremely rich when cold. So, consequently, the spark plugs foul, carbon builds up rapidly on the pistons, which can cause contact between the chaser valve, (exhaust), and the piston, negating any racing potential. Finally, those cars are so high geared in the rear end, to achieve those high speeds, that you have to fry the clutch to get the car to act at all civilized around pedestrians, that it is just easier to push. I have never heard that Nascar rule, however, I can believe it. You would end up hurting people, and damaging the car. Drag race cars are the opposite. They have real low gears to accelerate quickly, but do not have to sustain speed. They run out of rpm's in a quarter mile, by design, therefore they are really easy to get rolling. Example: get into a stick shift vehicle. Put it into 1st gear, let out the clutch. Nice and smooth. That would be the drag car. Now put it into 4th gear, and let out the clutch. Motor bogs, you have to slip the clutch, it's a real pain, right? That's a stock car. Also, for an engine to make horsepower at 10,000 rpm's, you have to give up elsewhere. A small block Chevy will give you a power band of about 4-5000 rpm. To make power at 10 grand. you can't start making power till about 5,000 rpm. So at idle speed, the motor doesn't even want to run.
Because the drivers push down on the gas pedal..... its called horse power Also because the curves are banked at a scientifically tested angle allowing them to achieve speeds faster than if they were on a normal non-banked track.
you have to push it to start because the clutch is too light to cleanly start off normally, without spinnign the tires. if you spin the tires (in a race car) you risk snapping the axle, and unnecessary tire spin.
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How do the reporduce?
they push each other
Does the earth and sun push away from each other or do they pull on one another?
Does the earth and the sun push away from each other
What does repel mean in magnet?
They push each other farther away from each other/
What happens when 2 negative charges approach each other?
They push away from each other.
How do like charges behave toward each other?
they repel or push each other away
What does it mean if a girl and a guy always push each other around and chase each other and play-fight and roughouse?
Well that totally means that you guys like each other. Usually in high school you tell each other you like them and in elementry you push each other around:)
Is Electrostatic is a push or pull?
Electrostatic force is a push or pull that acts between charged objects. Like charges repel each other (push), while opposite charges attract each other (pull).
Are these magnets attracting or repelling each other?
If the magnets are attracting each other, they will pull together. If they are repelling each other, they will push apart.
What happens when you push 2 horseshoe magnets together?
When you push two horseshoe magnets together with like poles facing each other, they will repel each other due to the magnetic force. If you turn one of the magnets around so that opposite poles face each other, they will attract each other.
What happens to with similar poles facing each other?
when two similar poles are facing each other, they will push away from each other, or repel.
Is electric force a push or pull?
Electric force can be either a push or a pull, depending on the charges involved. Like charges (positive-positive or negative-negative) repel each other, which is a push force. Opposite charges (positive-negative) attract each other, which is a pull force.
What is it called wen 2 magnets push away?
When two magnets push away from each other, it is called repulsion. This occurs because the magnetic fields produced by the magnets interact in such a way that they repel each other.
