Everything is always moving. Even when you think you're standing still, you're actually speeding through space. Your moving relative to the sun and stars- though you are at rest relative to the earth. Right now your speed relative to the sun is about 100,000 kilmeters per hour. And you're moving faster relative to the center of our galaxy.
Gotten From : "Conceptual Physical Science - Exploration" Pg 21. Chapter 2.
By: Paul G.Hewitt
John Suchocki
Leslie A. Hewitt
1 kmh = 0.621 mph 320 kmh = 320 x 0.621 = 198.7 mph
22/3
1285.19 mph
The speed on an engine is measured in RPM (Revolutions per minute), not MPH or KPH. The speed achieved by a vehicle fitted with an engine has many determining factors. The type of vehicle it is fitted to. (Bike, boat, car etc) The load it is carrying. The terrain The medium through which it is moving (land, sea, air, vacuum) The transmission system. The suspension fitted (where required) The type of fuel and fuel system. The type of aspiration fitted. The rider or driver. The laws governing the vehicle. For instance, a huge oil tanker with an engine the size of a large building moves at an average of about 20 MPH. A motorcycle with a small 125 cc engine can move in excess of 100 MPH
by jumping into a brick wall at 120 mph
Technically, if you ran at average speed on a surface moving at about 1000 mph, you would be running about 1000 mph. But good luck keeping your balance on a surface moving that fast that doesn't have some serious gravity backing it up.
Yes, if they are both at rest and on a moving railroad flatbed. Otherwise, yes, if the man intends to die or become seriously injured.
If an ATV is moving at 55 mph, then its speed is 55 mph. Both the original speed and the converted speed are the same.
around 5 and 6 x 1000 rpms
1000 mph = 1,609.344 kph
4,815 mph
Technically, the person is resting itself, but is in motion as long as the train is moving. ================================================== There is no 'absolute' answer. All motion is relative to the 'frame' in which it's measured. A physicist on the same train, sitting across the aisle from the person, observes the person to be at 'rest' in the physicist's frame. Another physicist, sitting in his car at a crossing, watching the train go by, observes the person to be moving past him at 50 mph. Both physicists are correct, because they're making their measurements in different 'reference frames'. By the way . . . the physicist in his car observes the physicist in the train to be moving too. At the same time, the physicist in the train is so at rest that he's preparing to take a nap. Have you ever read a book while you're in a passenger jet flying along at 400 mph ? Were you at rest or moving ? The answer is 'yes'. ============================================================== Very good point.
You are moving 10m/s or if you multiply that with 3600 you get 36000 m/h. Divide that with 1000 and you get 36 km/h.
1000 meters in 60.6 seconds = 36.91 mph
Oh, dude, so like, technically speaking, the car going from 60 mph to 70 mph has a larger acceleration because it's like speeding up by 10 mph, while the van only increases its speed by 15 mph. It's like comparing a sports car to a minivan, you know? But hey, either way, they're both just vehicles trying to get from point A to point B.
Time = Distance/Speed = 1000/65 = 15.38 hours assuming that the journey is undertaken without any comfort or rest stops or for refuelling.
At 1000 mph, there are approximately 1467 feet per second.