Speed
Speed of sound travels in gases (like air), in liquids, and in solids. In air at 20 °C speed of sound travels with c = 343 m/s.
The mass of the object exerting the gravitational pull, and the distance between the two objects. Gravity is all over, but it's effect varies greatly with distance. The girl next to you in Science class is actually exerting a greater gravitational pull on your mass than the Sun, despite their obvious differences in size.
Sound in air travels at about 770 mph or 330 meters per second.It depends upon the altitude, temperature and humidity, but at sea level sound travels approximately 700 miles per hour.The speed of sound does not depend on pressure.
The average orbital distance of Saturn from the Sun (its semi major axial radius) is-- 1,433,449,370 km (890,700,000 miles) or 9.58 AU. *At Aphelion (Farthest) 1,513,325,783 km (940,337,046 miles) - (10.11 AU)At Perihelion (Closest) 1,353,572,956 km (841,071,241 miles) - (9.04 AU)Light from the Sun takes about 80 minutes to reach Saturn (mean distance is 79.69 light minutes), travelling the nearly 1.5 billion kilometers at 300,000 km/sec.It varies; closer in January, farther in June, but on average, about 92.5 million miles. 1,426,725,400 km
1100 feet Update: You're just about right. Technically, though, it's a little over: 761 miles = 4018080 feet 1 hour = 3600 seconds ~1116 constitutes supersonic flight at sea level
I assume you are talking about distance in lightspeed. Well the distance is the same, regardless how it travels, but the time it takes for light to travel from the sun to Earth is 8.3 minutes, and it travels 93 million miles at avarage. (It varies)
Mars travels an average distance of about 227.9 million kilometers (141.6 million miles) in its orbit around the sun. This distance varies slightly because Mars follows an elliptical orbit rather than a perfectly circular one.
The price of a weekly pass for NJ Transit varies depending on the specific route and distance traveled. It typically ranges from around 20 to 100.
There isn't a specific distance because all of the tornadoes in the world are not the same. The typical tornado may travel a mile or so, but path lengths may range from only a few yards to more than 200 miles.
The price of airfare in Kingston varies greatly depending on the dates traveled and distance of the flight. Airfare can range anywhere from around $100 to thousands of dollars.
The cost to ride the metro in Washington DC varies based on the time of day and distance traveled. Fares typically range from 2.25 to 6.00 for a one-way trip.
A graph which shows how distance(dependent quantity) varies with time(independent quantity). For example, if you want to know how much distance a hare covers in a running race, you plot time along x axis, in seconds(say), and the distance it has traveled along the y axis, in meters(say) , so that by looking at the graph, you know how much distance the hare has traveled from the starting point at any instant of time, or distance between any two given times, and so on! Of course, I don't see why it features here in the relativity section! Or is it that you are asking what a space-time diagram is?
889,972,909 miles, based on its average orbital speed and the time taken for one orbit.
It varies.
It varies greatly.
Let's calculate that. First of all we know that in general, the time it takes to travel a distance is equal to the length of that distance, divided by the speed at which you travel that distance. If we reverse that, we get that the speed is equal to the distance traveled over the time taken. We also know that the time it takes for the Earth to go once around the Sun is 1 year. So in order to know the speed we just have to figure out the distance traveled by the Earth when it goes once around the Sun. To do that we will assume that the orbit of the Earth is circular (which is not exactly right, it is more like an ellipse, but for our purpose it will do just fine). So the distance traveled in one year is just the circumference of the circle. (remember that the circumference of a circle is equal to 2*pi*Radius) The average distance from the Earth to the Sun is 149,597,890 km. Therefore in one year the Earth travels a distance of 2*Pi*(149,597,890)km. This means that the velocity is about: velocity=2*Pi*(149,597,890)km/1 year and if we convert that to more meaningful units (knowing there is 365 days in a year, and 24 hours per day) we get: velocity=107,300 km/h (or if you prefer 67,062 miles per hour) So the Earth moves at about 100,000 km/h around the Sun (which is 1000 times faster than the speeds we go at on a highway!)
varies on aircraft size