Wiki User
∙ 11y agoNo technical difference other than compound and size.
Slick is just that there are no grooves in the surface (No tread).
Wiki User
∙ 11y agoThere is no difference between the two. It is also called profile drag.
Hot Wheels - 1969 Drag Strip Slicker-Slicks 1-16 was released on: USA: 20 December 1969
Drag race slicks are designed to grip. Any type of free spinning, or wheel spin, is wasted motion, and is not desired. The white line shows if the tire is free spinning, and in need of adjustments.
Drag slicks are typically not street legal due to their design, which prioritizes performance on the drag strip rather than safety on regular roads. They lack the necessary tread patterns and features required for safe driving in various weather conditions. It is best to check local laws and regulations regarding tire requirements before using drag slicks on public roads.
A cheater slick was a tire that was a cross between a treadless (slick) soft rubber wide tire used in drag racing... and a standard street tire that had treads. Cheater slicks had token treads in them to get around the rules against using slicks and thus were "cheating." Cheater slicks were simply very close to all-out racing slicks with a token tread and sidewall that looked more like typical street tires, but were usually wider than street tires. These were popular in the 1960s.
Makeup and women's clothing is the difference most of the time. The other drag queens would be transsexuals. They are considered t-girls and not men.
Petting is like when you drag your hand across and patting is when you hit it lightly.
The formula for aerodynamic drag is given by: drag force = 0.5 * drag coefficient * air density * velocity^2 * reference area. It represents the resistance encountered by an object moving through a fluid like air, with factors such as velocity, air density, drag coefficient, and reference area influencing the drag force.
Either potential difference (apply voltage) or energy input (drag the charged particle)
You can calculate the drag coefficient by using the formula Cd = Fd / (0.5 * ρ * A * V^2), where Cd is the drag coefficient, Fd is the drag force, ρ is the air density, A is the reference area, and V is the velocity of the object. Given these values, you can rearrange the formula to solve for the drag coefficient.
At the bottom right corner of the active cell there is a small black square. By putting the mouse on that and then pressing and holding the right mouse button you drag across a formula.
The drag coefficient (Cd) can be calculated using the formula: Cd = (2 * Drag Force) / (ρ * A * V^2), where ρ is the fluid density, A is the reference area, and V is the velocity. If drag force is not known, Cd can be determined experimentally by measuring the drag force at different velocities and using the above formula to calculate Cd.