Ernest Maak had a couple of realitives. he had 7 brothers named ernesto, evan, edwin, eduardo, elvin, ellery, and edgar. his mother ditched him at birth to be raised by his abusive father. he then left his family to go live in the woods to live with the wolves and study physics. the wolves taught him their magic, which later came to be called physics.
340.29 m/s
Yes. The space shuttle moved at a speed of 17,500 mph, which is roughly Mach 25.
Answer"Mach speed" refers to the speed of sound in earth's atmosphere. Mach 1 is the the speed of sound, Mach 2 is twice that, and so forth. A human can travel at any Mach speed at all. Your question fails to specify whether or not surviving the experience is a requirement. AnswerA human can travel at any Mach speed he/she wants. In orbit, the Space Shuttle travels at speeds well over Mach 30. It is the G-force which causes people to pass out. G-force is caused due to acceleration, not speed. A force of 5G can make a fit person pass out.
Mach 0.82 equates to about 624.2 mph
Yes. But they don't cruise at that speed. Any airliner can dive down towards the ground and reach a speed of Mach 1.
There is no accurate answer to this because the Mach number involves the speed of sound and this varies depending on the temperature and the height. So, sound travels more slowly as the height increases, which means it's easier to fly at higher Mach numbers at greater altitudes, although you're not actually going any faster. The answer to your quesion is that the speed of sound at sea level is about 1,236 kph (Mach 1), so Mach 2.02 = 2,497 (roughly, depending on the temprature).
The Mach number for the speed of an object travelling through a particular medium is the ratio of the object's speed relative to the speed of sound through the same medium. The speed of sound through any medium depends on the nature and density of the medium and, as a result, so does the Mach number. In air, the Mach ratio is mostly dependent on temperature and humidity and, to a lesser extent, on altitude. Generally, Mach 1 (in air, at standard sea level conditions, and at 15 deg C) is approx 1223 kmph. So 3400 kmph would be approx 2.8 Mach. But 3400 kmph in water would be a very much lower Mach number.
The Mach number for the speed of an object travelling through a particular medium is the ratio of the object's speed relative to the speed of sound through the same medium. The speed of sound through any medium depends on the nature and density of the medium and, as a result, so does the Mach number. In air, the Mach ratio is mostly dependent on temperature and humidity, less so on altitude. Generally, Mach 1 (in air, at standard sea level conditions, and at 15 deg C) is approx 760 mph. So Mach 1.8 would be approx 1370 mph.
The Mach number for the speed of an object travelling through a particular medium is the ratio of the object's speed relative to the speed of sound through the same medium. The speed of sound through any medium depends on the nature and density of the medium and, as a result, so does the Mach number. In air, the Mach ratio is mostly dependent on temperature and humidity, less so on altitude. Generally, Mach 1 (in air, at standard sea level conditions, and at 15 deg C) is approx 760 mph. So Mach 2.5 would be approx 1900 mph.
The Mach number for the speed of an object travelling through a particular medium is the ratio of the object's speed relative to the speed of sound through the same medium. The speed of sound through any medium depends on the nature and density of the medium and, as a result, so does the Mach number. In air, the Mach ratio is mostly dependent on temperature and humidity, less so on altitude. Generally, Mach 1 (in air, at standard sea level conditions, and at 15 deg C) is approx 760 mph. So Mach 0.85 would be approx 646 mph.
It varied, usually ANY size he wanted to!
The Mach number for the speed of an object travelling through a particular medium is the ratio of the object's speed relative to the speed of sound through the same medium. The speed of sound through any medium depends on the nature and density of the medium and, as a result, so does the Mach number. In air, the Mach ratio is mostly dependent on temperature and humidity, less so on altitude. Generally, Mach 1 (in air, at standard sea level conditions, and at 15 deg C) is approx 760 mph. So Mach 3 would be approx 2280 mph. But Mach 3 in water, for example, would be much faster since sound travels faster in water.