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To determine how fast a toy car will travel across different surfaces, you can conduct experiments by measuring the time it takes for the car to travel a certain distance on each surface. Calculate the speed by dividing the distance by the time. Factors such as friction, surface texture, and incline will affect the speed of the toy car on different surfaces.
Surface material can impact how far a toy car will roll. Smooth surfaces like hardwood floors or concrete allow for less friction and the car can roll farther. Rough surfaces like carpet or grass create more friction, slowing down the car and reducing the distance it can travel.
The mass of a balloon car affects the distance it can travel and the speed it can achieve. A heavier balloon car will typically have more inertia, making it harder to accelerate and affecting the distance it can travel. Conversely, a lighter balloon car will accelerate more easily and cover a greater distance due to less inertia.
Friction between the tires and the road can reduce the distance a car can travel because it creates resistance that opposes the motion of the car. The more friction there is, the more energy is needed to overcome it, which can decrease fuel efficiency and the overall distance the car can travel.
By finding the distance the car has travelled , in meters, in a specific time , in seconds , you get the speed of the car in meter per second Then , Speed = Distance Travelled/Time Taken
To determine how fast a toy car will travel across different surfaces, you can conduct experiments by measuring the time it takes for the car to travel a certain distance on each surface. Calculate the speed by dividing the distance by the time. Factors such as friction, surface texture, and incline will affect the speed of the toy car on different surfaces.
No.
Different surfaces affect the stopping distance of a car by influencing the friction between the tires and the road. For example, a rough or wet surface may reduce tire grip, increasing stopping distance, while a smooth and dry surface can provide better traction, decreasing stopping distance. Other factors such as tire condition and vehicle speed also play a role in determining stopping distance.
The travel time from Christchurch to Blenheim in a car is around four hours. The distance is about 313 kms.
Surface material can impact how far a toy car will roll. Smooth surfaces like hardwood floors or concrete allow for less friction and the car can roll farther. Rough surfaces like carpet or grass create more friction, slowing down the car and reducing the distance it can travel.
the average distance you will travel in an hour
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To calculate the distance a car can travel in 3 hours at a speed of 55 miles per hour (mph), you can use the formula: distance = speed × time. Thus, distance = 55 mph × 3 hours = 165 miles. Therefore, the car can travel 165 miles in 3 hours at that speed.
The distance a toy car will travel on different surfaces depends on various factors such as the surface texture, incline, and the type of wheels on the toy car. Generally, smoother surfaces like hardwood floors or tile will allow the toy car to travel further due to less friction compared to rough surfaces like carpet or gravel. Additionally, the weight and design of the toy car will also impact how far it can travel on different surfaces.
The mass of a balloon car affects the distance it can travel and the speed it can achieve. A heavier balloon car will typically have more inertia, making it harder to accelerate and affecting the distance it can travel. Conversely, a lighter balloon car will accelerate more easily and cover a greater distance due to less inertia.
from 300 to 400 miles !!!!
If you measured the distance between the moon and earth you could calculate the correct Distance you are recommended to travel.