Cars must weight at least 650kg, without fuel. This season they also carry 100-150kg of fuel at the race start, but are running on empty by the end of the race.
To calculate the mass, we can use the formula: weight = mass × gravitational acceleration. Given the weight of the car as 1323 N and the gravitational acceleration as approximately 9.8 m/s^2, we can rearrange the formula to solve for mass: mass = weight / gravitational acceleration, which gives us a mass of approximately 135 kg.
kinetic energy. The formula for kinetic energy is 1/2 mass (weight) x velocity (speed) squared.
The mass of the car would be 135 kg. This can be found using the formula: mass = weight / acceleration due to gravity, where weight is given as 1323 N and acceleration due to gravity is standard at 9.81 m/s^2.
When a certain car met a certain criteria with weight and added things on the car it was classed as "1" and Formula is supposed to mean the best of a car, such as Formula Renault and such strongest of the cars go there so it was called Formula and classed 1.
The counterweight in elevators is typically designed to be around half the weight of the elevator car when fully loaded, to help balance the weight and reduce the amount of work the elevator motor needs to do. It is calculated based on the maximum load capacity of the elevator car and the weight of the car itself when it is empty. The counterweight moves in the opposite direction of the elevator car to help offset the weight imbalance and ensure smoother operation.
there is no maximum they can weigh whatever they like, but in total the car and driver at the end have to weight a minimum of 600kg.
It depends on the car but the average car weighs around 1 to 2 tons
The Chemical formula of Urea is CO(NH2)2 its empirical formula is just the same as its chemical formula. Urea has a molecular weight of 60.06gm.
1. step on scale 2. look down
there is no formula 2 race carbut there are formula 2000 race cars look it up on bing.com
32000
The weight of a car is equivalent to the force of gravity acting on it, which is measured in Newtons. Therefore, a car that weighs 3000 Newtons has a weight of 3000 Newtons. To convert this to mass in kilograms, you can use the formula: weight (N) = mass (kg) × gravity (9.81 m/s²). Thus, the mass of the car would be approximately 305 kg (3000 N / 9.81 m/s²).