Estimate the difference Δ?diff in a 15000-s15000-s time interval as measured by a proper observer and a relative observer traveling on a commercial jetliner.
Δ?diff=
Estimate the difference Δ?diff in a 15000-s15000-s time interval as measured by a proper observer and...
Estimate the difference Δ?diff in a 12000-s time interval as measured by a proper observer and a relative observer traveling on a commercial jetliner. I cannot solve this problem since my scientific calculator isn't precise enough. Please do NOT say that the answer is 0. Thank you.
this is the feedback it gave me. this is all the information I received for this question If a relative observer is moving ata speed V relative to the rest frame, the time interval Δt measured by the relative observer is longer than the proper time Δ,proper. Δι Δι-- proper In the expression, c is the speed of light in a vacuum. Do a search for the average speed of a commercial jetliner, and convert the units to meters per...
this is the feedback it gave me. this is all the information I received for this question If a relative observer is moving ata speed V relative to the rest frame, the time interval Δt measured by the relative observer is longer than the proper time Δ,proper. Δι Δι-- proper In the expression, c is the speed of light in a vacuum. Do a search for the average speed of a commercial jetliner, and convert the units to meters per...
1) A particle has a rest mass of 6.95×10−27 kg and a momentum of 5.15×10−18 kg⋅m/s. Determine the total relativistic energy of the particle.E= JJ Find the ratio of the particle's relativistic kinetic energy to its rest energy. ??rest= 2) Estimate the difference Δtdiff in a 15000-s time interval as measured by a proper observer and a relative observer traveling on a commercial jetliner. Δ?diff= s 3) Suppose that you have found a way to convert the rest energy of...
can someone help me with this ? thanks Tutorial Exercise The average lifetime of a pi meson in its own frame of reference (i.e., the proper lifetime) is 2.6 x 108 s. (a) If the meson moves with a s on Earth? of 0.85c, what is its mean lifetime as measured by an observer (b) What is the average distance it travels before decaying, as measured by an observer on Earth? (c) What distance would it travel if time dilation...
A pion is an unstable particle that has a mean lifetime of 2.55 x 10^-8 s. Thi si the time interval between its creation in a nuclear process and its extinction into decay products, as measured in a frame of reference at rest with respect to the pion. An average pion is traveling at 0.230 c relative to Earth. How far does it travel in its lifetime, relative to Earth?
Please help me understand this problem An observer in an inertial reference frame S sees lightning strike simultaneously at two points that are 870 nm apart. He measures that the location of the first lightning strike is given by the four coordinates x1 0 m, y1 0 m, z1 0 m, and t0 s. He measures that the location of the second lightning strike is given by the four coordinates X2 = 870 m, y2 = 0 m, z2 0...
I found the distance I just need help with the time difference TimerNotes Evaluate F Course Contents . FeedbackPrint Info An observer in an inertial reference frame S sees lightning strike simultaneously at two points that are 840 m apart. He measures that the location of the first lightning strike is given by the four coordinates x1 0 m, Y1 O m, 21 -0 m, and t1 -Os. He measures that the location of the second lightning strike is given...
B. Develop a 90%,95%,98%,99% confidence interval estimate of the true mean difference between the two lines. A pet food producer fills 25-pound bags of dog food on two different production lines located in separate cities. In an effort to determine whether differences exist between the average fill rates for the two lines, a random sample of 18 bags from line 1 and a random sample of 23 bags from line 2 were recently selected. Each bag's weight was measured and...
point) Your task is to estimate how far an object traveled during the time interval 0 S t S 8, but you only have the following data about the velocity of the object. time (sec) 01 2 3 4 5678 velocity feet/sec)-24-3-4-2-3231 get an idea of what the velocity function might look like, you pick up a black pen, plot the data points, and connect them by curves. Your sketch looks something e the black curve in the graph below....