Another interesting phenomenon due to relativity is time dilation. For a spaceship traveling at relativistic speeds,...
Another interesting phenomenon due to relativity is time dilation. For a spaceship traveling at relativistic speeds, a clock on the ship will run slower than a non-moving clock on Earth.
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a) If you travel away from Earth at 0.6c for 1 hour, and return traveling at the same speed for 1 hour, how much time has elapsed on Earth?
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b) If you travel away from Earth at 0.999c for 1 year, and return traveling at the same speed for 1 year, how many years have elapsed on Earth?
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Another interesting phenomenon due to relativity is time
dilation. For a spaceship traveling at relativistic speeds,...
Another interesting phenomenon due to relativity is time dilation. For a spaceship traveling at relativistic speeds,...
Another interesting phenomenon due to relativity is time dilation. For a spaceship traveling at relativistic speeds, a clock on the ship will run slower than a non-moving clock on Earth. a) If you travel away from Earth at 0.6c for 1 hour, and return traveling at the same speed for 1 hour, how much time has elapsed on Earth? b) If you travel away from Earth at 0.999c for 1 year, and return traveling at the same speed for 1...
Time Dilation Time Dilation is a relativistic effect where time measured in two reference frames with...
Time Dilation Time Dilation is a relativistic effect where time measured in two reference frames with relative motion is different, even when the clocks in both reference frames are initially synchronized. Clocks are synchronized when the same time is measured when their inertial reference frames are at rest relative to one another (meaning there is no relative velocity). When t0, the clocks in the two reference frames are synchronized at the origin. The Proper Time (To) is the time difference...
Objects traveling at relativistic speeds will appear to a stationary observer as shorter, as- suming that...
Objects traveling at relativistic speeds will appear to a stationary observer as shorter, as- suming that it is parallel to the direction of its motion. Using the equation for Lorentz contraction, find the following, where c is the speed of light: a) A spaceship is traveling with a velocity 0.8c. If it is 200m long in its rest frame (when the object is not moving), how long do you observe it to be? Assume that you can see the entire...
Sometime in the far future, engineers develop a spaceship capable of traveling at 95% of the...
Sometime in the far future, engineers develop a spaceship capable of traveling at 95% of the speed of light. During a test flight of the spaceship, the astronauts on the spaceship measure that it takes them two hours to travel from one point in space to another point in space while moving at a constant speed of 93% of the speed of light. According to special relativity, will the people at Mission Control on Earth measure that the flight traveling...
9.1 Lorentz Contraction Objects traveling at relativistic speeds will appear to a stationary observer as shorter,...
9.1 Lorentz Contraction Objects traveling at relativistic speeds will appear to a stationary observer as shorter, as- suming that it is parallel to the direction of its motion. Using the equation for Lorentz contraction, find the following, where c is the speed of light: a) A spaceship is traveling with a velocity 0.8c. If it is 200m long in its rest frame (when the object is not moving), how long do you observe it to be? Assume that you can...
ASTRONOMY (Theory of Relativity -Special) Q: Suppose you had a spaceship so fast that you could...
ASTRONOMY (Theory of Relativity -Special) Q: Suppose you had a spaceship so fast that you could make a roundtrip journey of 1 million light-years (in Earth's reference frame) in just 50 years of ship time. If you left in the year 2030, you would return to Earth i) A million years from now ii) The year 2130 iii) The year 2080 I think the answer is i) because there is no way in the question to translate how much earth...
Suppose you are an astronaut being paid according to the time you spend traveling in space....
Suppose you are an astronaut being paid according to the time you spend traveling in space. You take a long voyage traveling a speed near that of light. Upon return to Earth, you're asked how you would like to be paid: according to the time elapsed on a clock on Earth or according to your ship's clock. Which should you choose to maximize your paycheck? Please explain why!
Time Dilation Ranking Task Five identical quintuplets leave earth when they reach the age of 21,...
Time Dilation Ranking Task Five identical quintuplets leave earth when they reach the age of 21, in the year 2121. Each quintuplet goes on a spaceship journey that takes T years, as measured by a clock in each spaceship. During the journey they travel at a constant speed v, as measured on earth, except during the relatively short acceleration phases of their journey. Part A Rank these quintuplets on the basis of the year on earth when they return from...
Bringing all of section 6.2 together... The distribution of passenger vehicle speeds traveling on the Interstate...
Bringing all of section 6.2 together... The distribution of passenger vehicle speeds traveling on the Interstate 5 Freeway (1-5) in California is nearly normal with a mean of 72.6 miles/hour and a standard deviation of 4.78 miles/hour. (a) What percent of passenger vehicles travel slower than 80 miles/hour? % (round to two decimal places) (b) What percent of passenger vehicles travel between 60 and 80 miles/hour? % (round to two decimal places) (c) How fast do the fastest 5% of...
please help 2. Now we are going to look at problem 1 again, but this time...
please help
2. Now we are going to look at problem 1 again, but this time we are going to set the spaceship as the inertial stationary frame, meaning that the Earth is defined as the moving frame and traveling away from you. 1B:.8740 ; P = 2.058yr a. Using your answer from Ib as the speed of the moving frame, V, what is the speed of the Earth with respect to your spaceship? Using a Galilean Transformation equation for...
Time Dilation Time Dilation is a relativistic effect where time measured in two reference frames with relative motion is different, even when the clocks in both reference frames are initially synchronized. Clocks are synchronized when the same time is measured when their inertial reference frames are at rest relative to one another (meaning there is no relative velocity). When t0, the clocks in the two reference frames are synchronized at the origin. The Proper Time (To) is the time difference...
9.1 Lorentz Contraction Objects traveling at relativistic speeds will appear to a stationary observer as shorter, as- suming that it is parallel to the direction of its motion. Using the equation for Lorentz contraction, find the following, where c is the speed of light: a) A spaceship is traveling with a velocity 0.8c. If it is 200m long in its rest frame (when the object is not moving), how long do you observe it to be? Assume that you can...
Bringing all of section 6.2 together... The distribution of passenger vehicle speeds traveling on the Interstate 5 Freeway (1-5) in California is nearly normal with a mean of 72.6 miles/hour and a standard deviation of 4.78 miles/hour. (a) What percent of passenger vehicles travel slower than 80 miles/hour? % (round to two decimal places) (b) What percent of passenger vehicles travel between 60 and 80 miles/hour? % (round to two decimal places) (c) How fast do the fastest 5% of...
please help
2. Now we are going to look at problem 1 again, but this time we are going to set the spaceship as the inertial stationary frame, meaning that the Earth is defined as the moving frame and traveling away from you. 1B:.8740 ; P = 2.058yr a. Using your answer from Ib as the speed of the moving frame, V, what is the speed of the Earth with respect to your spaceship? Using a Galilean Transformation equation for...
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