It's hard to say, but I would place such a car if it were doing a 0-60 at around 2.5 seconds. Geoffrey Fox's Equations: ET Equation: ET = 6.269 × (WT / HP) 1/3 MPH Equation: MPH = 230 × (HP / WT) 1/3. ET & MPH Equations. A 10 second car is one that can do a 1/4 mile sprint from a standing start on a drag strip in under 11 seconds. These are as follows: Roger Huntington's Equations: ET Equation: ET = 6.290 × (WT / HP) 1/3 MPH Equation: MPH = 224 × … These cars can readily impress you with their raw power. If you know your vehicle's weight and horsepower, this calculator can determine how you car will perform in a quarter mile "stretch". In fact, its 2021 model year comes with a starting price of $114,000. That is to say, if your vehicle weighs 3,000 pounds and has 300 horsepower, then starting at zero miles per hour, it should take 12.46 seconds to travel the ¼ mile and its top speed (called "trap speed") will be 108.61 mph at the end of the quarter mile. That’s pretty darn quick for a car that’s street legal. The way the expression is used means that a car that can run a 10.90 second 1/4 mile time is a 10 second car; i.e. These are as follows: Roger Huntington's Equations: ET Equation: ET = 6.290 × (WT / HP) 1/3 MPH Equation: MPH = 224 × (HP / WT) 1/3. In referring to an "8 second car" usually means 8 seconds in the quarter mile which is rediculously fast. The quarter mile calculator employs three distinct empirical equations to determine the ¼-mile ET and trap speed estimates. Given that in that 8 seconds, most cars that CAN do it are usually moving at like 150+mph. The car takes 8.2 seconds to reach 60 MPH from a standstill while it is able to run a quarter-mile in 16.3 seconds. The Lamborghini is able to achieve a 7.9-second quarter-mile run at an astounding 186 miles per hour.