a]
T=Time period
w=Angular velocity
A=Amplitude
w=2π/T= 2×3.14/13= 0.483 rad/sec
a=Maximum Acceleration
a=Aw²= 1.4×(0.483)²= 0.3270.33 m/s²
b]
g=9.8 m/s²
a=0.33m/s²
Fraction= a/g= 0.33/9.8= 0.0334= 3.34×10-2
answer part A & B! pls Problem 14.13 - Enhanced - with Feedback Part A Some...
Review Constants Part A Some passengers on an ocean cruise may suffer from motion sickness as the ship rocks back and forth on the waves. At one position on the ship, passengers experience a vertical motion of amplitude 1.4 m with a period of 16 S What is the maximum acceleration of the passengers during this motion? Express your answer using one significant figure You may want to review (Pages 444-448) amax = m/s2 Submit Previous Answers Request Answer X...
Some passengers on an ocean cruise may suffer from motion sickness as the ship rocks back and forth on the waves. At one position on the ship, passengers experience a vertical motion of amplitude 1.3 m with a period of 18 s . What is the maximum acceleration of the passengers during this motion?What fraction is this of g?
Some passengers on an ocean cruise may suffer from motion sickness as the ship rocks back and forth on the waves. At one position on the ship, passengers experience a vertical motion of amplitude 1.5 m with a period of 17 s . A. What is the maximum acceleration of the passengers during this motion? B. What fraction is this of g?
Problem 12.33 - Enhanced - with Feedback Part B 0.0052 mol of gas undergoes the process shown in (Figure 1). What is the initial temperature? Express your answer in degrees Celsius. 190 ΑΣΦ ? T." * Figure 1 of 1 Submit Request Answer p (atm) Part 3 What is the final temperature? Express your answer in degrees Celsius. 2 - TV AEO 04 V (cm) *C 100 200 300
Problem 15.1 - Enhanced - with Feedback The wave speed on a string under tension is 150 m/s Part A What is the speed if the tension is doubled? Express your answer in meters per second. Ρ ΑΣΦ 0 ? m/s Submit Request Answer
Homework chapter 11 with Solution Problem 11.23 Enhanced If an object on a horizontal frictionless surface is attached to a spring, displaced, and then released, it oscillates. Suppose it is displaced 0.124 m from its equilibrium position and released with zero initial speed. After 0.900 s, its displacement is found to be 0.124 m on the opposite side and it has passed the equilibrium position once during this interval. You may want to review (Page) For related problem-solving tips and...
Problem 17.21 - Enhanced - with Feedback A diffraction grating with 620 lines per mm is illuminated with light of wavelength 520 nm A very wide viewing screen is 2.0 m behind the grating Part A What is the distance between the two m=1 fringes? Express your answer in meters. ΡΙ ΑΣφ ? Ay = n Submit Request Answer Part B How many bright fringes can be seen on the screen? Express your answer as an integer. Η ΑΣφ fringe(s)
CH 9-10 HW Problem 10.21 - Enhanced - with Solution 19 of 20 Part A Calculate the angular momentum of a solid uniform sphere with a radius of 0.150 m and a mass of 16.0 kg if it is rotating at 5.60 rad/s about an axis through its center Express your answer in kilogram-meters squared per second. Iνα ΑΣφ L= kg m2/s Submit Request Answer Part B Calculate kinetic energy of a solid uniform sphere with a radius of 0.150...
Answer part A & B! Problem 9.15 - Enhanced - with Feedback Rev As part of a safety investigation, two 1300 kg cars traveling at 25 m/s are crashed into different barriers. Y Part A Find the average force exerted on the car that hits a line of water barrels and takes 1.7 s to stop. Express your answer with the appropriate units. ? F- Value Units Submit Request Answer Part B Find the average force exerted on the car...
Problem 3.05 - Enhanced - with Hints and Feedback Item 2 Review A flow field is defined by u = (2x + 1) m/s and v = (xy) m/s, where x and y are in meters. Part B Find the magnitude of the velocity of a particle located at point (3 m, 1 m). Express your answer to three significant figures and include the appropriate units. View Available Hints) HHA ? V ** Value Units Submit <03.1-3 Kinematics: Fluid Flow...