Using a container graduated in ounces that can hold the toy, fill the container with X ounces of water. Submerge the toy into the container of water and note new water level in ounces. Subtract first reading from the second reading.
This is because the work done in order to move the toy car is smaller than that of the car with the added mass, and so the battery will have to work harder to move the toy car with the mass added
The diameter of a car tire is 40cm and the diameter of a toy car tire is 18mm. Find the ratio of the diameter of the car to the diameter of the toy car
Yes. If it is heavy it will go slower than a light toy car, if it is light it will movefaster than a heavier car.
35
you spelt gos wrong, mate.
If you're asking about "KITT", you can find toy cars on eBay.com.
Mass (and weight) certainly does have an impact. Other factors that come into play are how much energy the engine exerts (a toy car with an engine that exerts the same amount of energy as a more massive toy car can travel faster on the same surface) and how much friction is generated by the wheels and the surface the toy car is traveling on. If the (toy) car is going down a ramp,if you add say another two or so grams, the car will travel faster
Triple beam balance
A triple-beam balance scale
2.744 Newtons, or 0.62 lbf (pounds force)
You can find model car kits at Hamley's toy store. There is a Hamley's at the Dubai Mall in Dubai.
Because mommentum is calculated based on the product of the mass and velovity of an object, since a real car has a mass far greater than a toy car, it will be the tie breaker when they are going the same speed, multiplying a mass 5000kg by 20km/h will yield a momentum far greater than, say 1kg x 20km/h. Because mommentum is calculated based on the product of the mass and velovity of an object, since a real car has a mass far greater than a toy car, it will be the tie breaker when they are going the same speed, multiplying a mass 5000kg by 20km/h will yield a momentum far greater than, say 1kg x 20km/h.