You may go off the road.
No, the velocity of a car is not constant when it is going around a curve. The direction of the car's velocity is changing as it navigates the curve, even if its speed remains the same, so the velocity is not constant.
The primary centripetal force on a car going around a curve is provided by the frictional force between the tires and the road. This force is directed towards the center of the curve, allowing the car to maintain its circular path.
A person walking in a circle A car going around a curve A bicyclist riding around a lake
No, unless the driver is giving it more gas.
Whatever is going to happen around the world it will be the same in Wales, don't worry Welsh people.
slow down before entering and then accelerate while going around
needs swaybar bushings
False. When a bike goes around a curve at the same speed as it was moving on a straight road, it is not considered uniform motion because its velocity is changing due to the direction of the motion changing as it goes around the curve. Uniform motion refers to motion at a constant speed in a straight line.
right
Yes. The simplest example is an object moving at a constant speed in a circle.
According to the BlackBerry Curve website, the BlackBerry Curve 8330, which isn't out yet, will be available for Sprint and Verizon Wireless.
Yes, when you go around a corner on a bicycle, you are changing your direction of motion, which requires centripetal acceleration towards the center of the curve. This acceleration allows you to turn without skidding off the curve.