Arrow dynamics
Records mileage and speed of the vehicle
yes
avg speed=total distance/total time avg speed=60/20=3mtr/sec
-- Start a car moving from a stop-sign.-- Slow a car down when approaching a stop-sign.-- Turn a corner in a car.-- Turn a corner on a bicycle.-- Turn a corner on roller-skates.-- Throw a stone at a stop-sign.-- Drop a stone into a pond.-- Throw a stone horizontally half-way across a pond.-- Throw a stone up to get it all the way across a pond.-- The moon sailing around the Earth in its orbit.-- Practically every motion of anything that you ever see during daily life on Earth.We're in the category of here, so we need to be a bit careful abouthow we handle scientific terms like this.Contrary to popular usage, "acceleration" does notmean increasing speed, andan object that's accelerating is not necessarily expected to be moving faster.Acceleration means any change in speed ordirection of motion, and any objectthat's not moving at a constant speed in a straight line is accelerating.A car speeding up after leaving a stop-sign is accelerating, with positive accelerationbecause its speed is growing. A car slowing down as it approaches an intersectionis accelerating, with negative acceleration because its speed is shrinking.A car or bicycle on a curve, as well as the moon and any other object in a gravitationalorbit, is accelerating, because, although its speed may be constant, the directionof its motion is changing.And while we're being more precise than usual, velocityand speed are twodifferent things. Everybody knows what speed is. Velocity is speed and thedirection of the speed. If you drive around a curve at a steady 30 mph (48 kmph),your velocity is changing, because, although your speed is constant, your directionis changing.And any change of velocity is called . . . . . acceleration.
25:1
The more weight the car has the slower it goes.
Weight
It would affect its speed because the weight of the car is gonna slow it down
Aerodynamics, weight of the car, horsepower of the engine, are all factors in the speed the car can travel.
Gravity affects your car speed when you are driving on a hill. When going uphill, gravity acts against the car's momentum, causing it to slow down unless the engine compensates with more power. When going downhill, gravity assists the car's momentum, causing it to speed up unless the brakes are used to control the speed.
the fatter you are, the less speed your car will max out at, but, the more weight, the more momentum
Gravity, the heavier the object the more force gravity has on it, and the faster it can accell before the force of friction (from the wheels, road surface and air) equal the force of gravity till it hits is maximum speed.
because the weight of your wheels and the size has wind Resistance on your car
Gravity affects the speed of a toy car by pulling it downward, which can increase its acceleration when moving downhill and decrease its acceleration when moving uphill. The force of gravity can also affect the traction of the tires on different surfaces, influencing the overall speed and performance of the toy car.
The slope of a surface can affect a car's speed by influencing the force of gravity acting on the car. Going uphill will slow the car down as gravity works against the car's forward motion, while going downhill will speed the car up as gravity provides additional force in the direction of motion. Overall, steeper slopes will have a greater impact on the car's speed than gentle slopes.
Gravity affects a car by providing the downward force that keeps it grounded on the road. Gravity also affects the car's acceleration, as it determines the rate at which the car gains speed when going downhill and loses speed when going uphill. Additionally, gravity influences the car's fuel efficiency, as it requires more energy to overcome gravity when driving uphill.
Yes, the design of a car can affect its speed. Factors such as aerodynamics, weight distribution, and overall shape can impact the car's ability to move efficiently through the air, which can ultimately affect its speed and performance. sleek, streamlined designs are typically better suited for achieving higher speeds.