50 km/hr
37.5kph
I think it must be 300 x 30...
V = d/t is the formula for velocity. It translates to "Velocity equals distance divided by time". So let's say a car is traveling 300 miles and has been driving for 10 minutes. What's it's velocity in seconds. Distance: 300 mi Time: 10 minutes V = 300 ÷ 10 = 30 30 ÷ 60 = .5 mi/s. V = 0.5 mi/s
This is a very situational event. What are you driving? Are you wearing a helmet. There have been people who have rolled cars at 300 mph and lived. But there are people who have rolled cars at 30 mph and died.
Average speed = Distance travelled/Time spent = 300/6 = 50 km per hour.
The velocity super car come extremely close to 300 but besides that car and drag cars no cars go over 300.
300/2 = 150 km/h
The 300 series cars are manufactured by the Crystler company. The 300 series cars were available from the years 1955 to 1965 in the United States of America.
"The velocity of the bullet was 300 metres per second."
150 km per hour due East (or even -150 km per hour due West).
All paintball markers are chronographed to the same velocity of around 290-300 FPS.
300 GPM
speed of light
37.5kph
Yes, since velocity is speed and direction its average can be zero. For example say a plane flies from point A to point B at 300 mph and turns around to go from B to A at 300 mph; its average velocity is 0 since it is in the same spot as it started ( the velocity vectors cancel) but its average speed is 300 mph.
Plane A travels due north at 150 mph for 2 hours, it will go 300 miles. Plane B travels due west at 200 mph for 2 hours, it will go 400 miles. Draw the two vectors and you will see that they make two sides of a right triangle. The distance between the two planes at the end of two hours is just the hypotenuse of this triangle. You could use the Pythagorean theorem (c^2 = a^2 + b^2) to find the distance...or you could recognise that 300 and 400 are two of a pythagorean triplet (300, 400, 500) and the third number of this triplet is 500. So, the planes will be 500 miles aprt at the end of two hours
The mass and velocity of an object do not determine its wavelength: it could be travelling in a straight line!