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I cant figure out how to go from part g) all the showing how
the wave...
Paragraph Styles Problem 5-The following figure represents a traveling wave. The distance the wave has traveled...
Paragraph Styles Problem 5-The following figure represents a traveling wave. The distance the wave has traveled is 50 meters during a 10 second. w Formulas: F=1/T, V=f1, w = 271, K=27/A, Y= Asin(kx - w t) The wave Y-5 sin (k x-wt) travels in the rope. • "5" in the formula is in cm. a)What is the amplitude (A) of the wave? b)What is the frequency (f) (-in Hertz) of the wave? (see the above figure) c) What is the...
cant figure out how to get the correct answer to correspond with the g/m units. please...
cant figure out how to get the correct answer to correspond
with the g/m units. please work part B.
PRINTER VERSION BACK Your answer is partially correct. Try again. The equation of a transverse wave on a string is y= (2.2 mm) sin[(30 m1)x +(100 s1)t] The tension in the string is 44 N. (a) What is the wave speed? (b) Find the linear density of this string. (a) Number13.3 Units m/s (b) Number Units a/m Click if you would...
An Electromagnetic Wave A sinusoidal electromagnetic wave of frequency 43.0 MHz travels in free space in...
An Electromagnetic Wave A sinusoidal electromagnetic wave of frequency 43.0 MHz travels in free space in the x-direction as in the figure. At some instant, a plane electromagnetic wave moving in the x direction has a maximum electric field of 725 N/C in the positive y direction. (a) Determine the wavelength and period of the wave. SOLUTION plane. Conceptualize Imagine the wave in the figure moving to the right along the x-axis, with the electric and magnetic fields oscillating in...
please give me answers to all the questions and i would really appreciate that thank you...
please give me answers to all the questions and i would really
appreciate that
thank you
6. -0 points My Notes O Ask Your Teache A 10.1 kg object oscillates at the end of a vertical spring that has a spring constant of 2.20 x 104 N/m. The effect of air resistance is represented by the damping coefficient b = 3.00 N-s/m (a) Calculate the frequency of the dampened oscillation. H2 (b) By what percentage does the amplitude of the...
Please do Part 4 and Show all work! 1. 145 points) <FM/FSK Modulation/Demodulations A periodic wave m(t) in Figure 1 below The resulting FM signal is demodulated as shown in the following figure b...
Please do Part 4 and Show all work!
1. 145 points) <FM/FSK Modulation/Demodulations A periodic wave m(t) in Figure 1 below The resulting FM signal is demodulated as shown in the following figure by using frequency discriminator. Assume no attenuation of the signal due to propagation loss (in other words assume amplifiers properly restored the amplitude of the transmitted signal at the receiver) [10 points] Find the Fourier Series (trigonometric Fourier Series) of the message signal m (t) where To...
Parallel Axis Theorem: I = ICM + Md Kinetic Energy: K = 2m202 Gravitational Potential Energy:...
Parallel Axis Theorem: I = ICM + Md Kinetic Energy: K = 2m202 Gravitational Potential Energy: AU = mgay Conservation of Mechanical Energy: 2 mv2 + u = žmo+ U Rotational Work: W = TO Rotational Power: P = TO Are Length (angle in radians, where 360º = 2a radians): S = re = wt (in general, not limited to constant acceleration) Tangential & angular speeds: V = ro Frequency & Period: Work-Energy Theorem (rotational): Weet = {102 - 10...
the list of equations to list are attached! thanks! 6. A playground merry-go-round, i.e., a horizontal...
the list of equations to list are attached! thanks!
6. A playground merry-go-round, i.e., a horizontal disc of radius 3 m that can rotate about a vertical axis through its center, is rotating at an angular speed 1/s (measured, as usual, in terms of radians). The moment of inertia of the merry-go-round with respect to that axis is 3000 kg m? A student of mass 80 kg is standing at the center of the merry-go-round. The student now walks outward...
Please answer all of the questions, thanks! möbius 2019 Fall - University of British Columbia -...
Please answer all of the questions, thanks!
möbius 2019 Fall - University of British Columbia - PHYS 101 / Assignment Assignment 4 - Question 1 A buoy bobs as a wave passes by in the water 1 point AS (a) What is the period Number Units (b) What is the frequency of the buoy's motion in unit of hertz? Number (c) What is the frequency of the buoy's motion in units of radians per second? Number on 2 The displacement...
12. A longitudinal standing wave can be created in a long, thin aluminum rod by stroking...
12. A longitudinal standing wave can be created in a long, thin aluminum rod by stroking the rod with very dry fingers. This is often done as a physics demonstration, creating a high-pitched, very annoying whine. From a wave perspective, the standing wave is equivalent to a sound standing wave in an open-open tube. In particular, both ends of the rod are anti-nodes. What is the fundamental frequency of a 2.50 m -long aluminum rod? The speed of sound in...
Please help answer all of question 6, thanks! Rotational Dynamics Assignment (200 Points) • Due Friday,...
Please help answer all of
question 6, thanks!
Rotational Dynamics Assignment (200 Points) • Due Friday, July 31 at 5:00 pm Equations are in a separate document entitled “Equations for Rotational Dynamics Assignment” • Moments of inertia formulas are provided on the last page of this document • Show all of your work when solving equations. It is not sufficient to merely have a correct numerical answer. You need to have used legitimate equations and algebra. You also need to...
Paragraph Styles Problem 5-The following figure represents a traveling wave. The distance the wave has traveled is 50 meters during a 10 second. w Formulas: F=1/T, V=f1, w = 271, K=27/A, Y= Asin(kx - w t) The wave Y-5 sin (k x-wt) travels in the rope. • "5" in the formula is in cm. a)What is the amplitude (A) of the wave? b)What is the frequency (f) (-in Hertz) of the wave? (see the above figure) c) What is the...
cant figure out how to get the correct answer to correspond
with the g/m units. please work part B.
PRINTER VERSION BACK Your answer is partially correct. Try again. The equation of a transverse wave on a string is y= (2.2 mm) sin[(30 m1)x +(100 s1)t] The tension in the string is 44 N. (a) What is the wave speed? (b) Find the linear density of this string. (a) Number13.3 Units m/s (b) Number Units a/m Click if you would...
An Electromagnetic Wave A sinusoidal electromagnetic wave of frequency 43.0 MHz travels in free space in the x-direction as in the figure. At some instant, a plane electromagnetic wave moving in the x direction has a maximum electric field of 725 N/C in the positive y direction. (a) Determine the wavelength and period of the wave. SOLUTION plane. Conceptualize Imagine the wave in the figure moving to the right along the x-axis, with the electric and magnetic fields oscillating in...
please give me answers to all the questions and i would really
appreciate that
thank you
6. -0 points My Notes O Ask Your Teache A 10.1 kg object oscillates at the end of a vertical spring that has a spring constant of 2.20 x 104 N/m. The effect of air resistance is represented by the damping coefficient b = 3.00 N-s/m (a) Calculate the frequency of the dampened oscillation. H2 (b) By what percentage does the amplitude of the...
Please do Part 4 and Show all work!
1. 145 points) <FM/FSK Modulation/Demodulations A periodic wave m(t) in Figure 1 below The resulting FM signal is demodulated as shown in the following figure by using frequency discriminator. Assume no attenuation of the signal due to propagation loss (in other words assume amplifiers properly restored the amplitude of the transmitted signal at the receiver) [10 points] Find the Fourier Series (trigonometric Fourier Series) of the message signal m (t) where To...
Parallel Axis Theorem: I = ICM + Md Kinetic Energy: K = 2m202 Gravitational Potential Energy: AU = mgay Conservation of Mechanical Energy: 2 mv2 + u = žmo+ U Rotational Work: W = TO Rotational Power: P = TO Are Length (angle in radians, where 360º = 2a radians): S = re = wt (in general, not limited to constant acceleration) Tangential & angular speeds: V = ro Frequency & Period: Work-Energy Theorem (rotational): Weet = {102 - 10...
the list of equations to list are attached! thanks!
6. A playground merry-go-round, i.e., a horizontal disc of radius 3 m that can rotate about a vertical axis through its center, is rotating at an angular speed 1/s (measured, as usual, in terms of radians). The moment of inertia of the merry-go-round with respect to that axis is 3000 kg m? A student of mass 80 kg is standing at the center of the merry-go-round. The student now walks outward...
Please answer all of the questions, thanks!
möbius 2019 Fall - University of British Columbia - PHYS 101 / Assignment Assignment 4 - Question 1 A buoy bobs as a wave passes by in the water 1 point AS (a) What is the period Number Units (b) What is the frequency of the buoy's motion in unit of hertz? Number (c) What is the frequency of the buoy's motion in units of radians per second? Number on 2 The displacement...
Please help answer all of
question 6, thanks!
Rotational Dynamics Assignment (200 Points) • Due Friday, July 31 at 5:00 pm Equations are in a separate document entitled “Equations for Rotational Dynamics Assignment” • Moments of inertia formulas are provided on the last page of this document • Show all of your work when solving equations. It is not sufficient to merely have a correct numerical answer. You need to have used legitimate equations and algebra. You also need to...
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