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Over time, it is observed that the position of a star executes a sinewave in the...
Use the following data values: At time 13, observed position was (1, 3, 7) At time...
Use the following data values: At time 13, observed position was (1, 3, 7) At time 84, observed position was (23, -5, 10) You want to find the position at time 50" My question is; what equation can I use to solve for [x3, y3, z3] knowing [t1, x1, y1, z1,] and [t2, x2. y2, z3] and [t3]? Is there a Python function I can use for this?
A piston executes simple harmonic motion with an amplitude of 0.1 m. If it passes through...
A piston executes simple harmonic motion with an amplitude of 0.1 m. If it passes through the center of its motion with a speed of 0.5 m/s, what is the period of oscillation? 20 pts Problem 3.2 Use the general expression for r(t) for Simple Harmonic Motion (SHM) Express the period To as a function of wo The amplitude of the motion is given, so just take the first time derivative of the displace- ment and compare with the velocity...
1. On the diagram, mark with a star the position of the source of the wave...
1. On the diagram, mark with a star the position of the source
of the wave when it produced the first peak. With a square, mark
the position of the source of the wave when it produced its second
peak.
2. What is the distance between the star you’ve drawn and the
square you’ve drawn, in terms of previously-defined quantities?
(Hint: How long did it take the source to cover this distance, and
how quickly did it move?)
3. The...
Please answer this question with clear procedure and explanation please! Thanks! 16.1 The most easily observed...
Please answer this question with clear procedure and explanation
please! Thanks!
16.1 The most easily observed white dwarf in the sky is in the constellation of Eridanus (the Ri Eridanus). Three stars make up the 40 Eridani system: 40 Eri A is a 4th-magnitude star simil to the Sun; 40 Eri B is a 10th-magnitude white dwarf; and 40 Eri C is an 11th-magnitude M5 star. This problem deals only with the latter two stars, which are s by 400...
Could one of the stars listed in the table above be an RR Lyrae star?
Cosmic DistancesDISTANCE MODULUS- For this lab, we will focus on two techniques that can be used to measure the distance modulus of objects in deep space - supernovas and Cepheid variable stars. Before we begin, though, we must understand what "distance modulus" means.- Read through the background material on distance modulus.- Use the distance modulus page to complete the following table:ObjectApparent Magnitude (m)Absolute Magnitude (M)Distance Modulus (m-M)Distance (pc)Star A2.410Star B516Star C1025Star D8.50.5- Could one of the stars listed in the...
You have observed the following returns on Rogers Ltd shares over the past 5 years: (16%,...
You have observed the following returns on Rogers Ltd shares over the past 5 years: (16%, 12%, -28%, -7% and 29%) a) What was the average return on Rogers Ltd shares over this five year period? Show workings b) What was the variance of Rogers Ltd shares’ returns over this period? What was the standard deviation? Following from the above, suppose the average inflation rate over this period was 1.2% and the average cash rate over the period was 2.1%...
You’ve observed the following returns on INTC Corporation’s stock over the past five years: -25%, -16%,...
You’ve observed the following returns on INTC Corporation’s stock over the past five years: -25%, -16%, -9%, 11%, and 18%. Answer Questions average return on stock over five years : 9.6% variance of returns: 0.04878 a) What is the standard deviation of returns over this period? b)What range of returns would you expect to see 95% of the time? c)What is the geometric average return on the stock over this five-year period?
you observed the following returns on company a's stock over the past five years: 12%,23%,18%,7% and...
you observed the following returns on company a's stock over the past five years: 12%,23%,18%,7% and 13%. A. What was the average return on the stock over this five year period? B. What was the standard deviation of the returns this period? C. What range of returns would you expect to see 68% of the time for this stock?
Over a time interval of 1.88 years, the velocity of a planet orbiting a distant star...
Over a time interval of 1.88 years, the velocity of a planet orbiting a distant star reverses direction, changing from +19.0 km/s to -17.4 km/s. Find the following values, include the correct algebraic sign with your answers to convey the directions of the velocity and the acceleration. (a) the total change in the planet's velocity (b) its average acceleration during this interval
Over a time interval of 1.99 years, the velocity of a planet orbiting a distant star...
Over a time interval of 1.99 years, the velocity of a planet orbiting a distant star reverses direction, changing from +20.7 km/s to -22.0 km/s. Find (a) the total change in the planet's velocity (in m/s) and (b) its average acceleration (in m/s2) during this interval. Include the correct algebraic sign with your answers to convey the directions of the velocity and the acceleration.
A piston executes simple harmonic motion with an amplitude of 0.1 m. If it passes through the center of its motion with a speed of 0.5 m/s, what is the period of oscillation? 20 pts Problem 3.2 Use the general expression for r(t) for Simple Harmonic Motion (SHM) Express the period To as a function of wo The amplitude of the motion is given, so just take the first time derivative of the displace- ment and compare with the velocity...
1. On the diagram, mark with a star the position of the source
of the wave when it produced the first peak. With a square, mark
the position of the source of the wave when it produced its second
peak.
2. What is the distance between the star you’ve drawn and the
square you’ve drawn, in terms of previously-defined quantities?
(Hint: How long did it take the source to cover this distance, and
how quickly did it move?)
3. The...
Please answer this question with clear procedure and explanation
please! Thanks!
16.1 The most easily observed white dwarf in the sky is in the constellation of Eridanus (the Ri Eridanus). Three stars make up the 40 Eridani system: 40 Eri A is a 4th-magnitude star simil to the Sun; 40 Eri B is a 10th-magnitude white dwarf; and 40 Eri C is an 11th-magnitude M5 star. This problem deals only with the latter two stars, which are s by 400...
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