Derive the Standing Waves in Pipes. Be clear about p and d in equation and define...

Derive the thin lens equation using scalar parabolic waves. you can assume the Fresnel approximation is...

Derive the thin lens equation using scalar parabolic waves. you can assume the Fresnel approximation is valid

Two waves are generated on a string of length 5.1 m to produce a three-loop standing...

Two waves are generated on a string of length 5.1 m to produce a three-loop standing wave with an amplitude of 5.0 cm. The wave speed is 119 m/s. Let the equation for one of the waves be of the form y(x, t) = ym sin (kx + ωt). In the equation for the other wave, what are (a) ym, (b) k, (c) ω, and (d) the sign in front of ω?

1a. Derive a formula for the wavelength of a standing wave on a fixed string at...

1a. Derive a formula for the wavelength of a standing wave on a fixed string at both ends in terms of the number of antinodes, n, and the length of the string. 1b. For an aluminum rod, when a wave is set up in the rod, do you expect the ends of the rod to allow vibrations or not? Are they considered open or closed for displacement? 1c. Draw schematic pictures of the two longest wavelengths that could fit on...

Four standing waves, labeled A through D, are described below: Wave A: first harmonic; pipe closed...

Four standing waves, labeled A through D, are described below: Wave A: first harmonic; pipe closed at one end; length = 1 m Wave B: first harmonic; pipe open at both ends; length = 1 m Wave C: second harmonic; pipe open at both ends; length = 3 m Wave D: second harmonic; pipe closed at one end; length = 3 m Rank the standing waves in order of decreasing frequency. Rank from greatest to smallest. To rank items as...

1. In the space below, a. state Archimedes’ Principle b. define density c. Mathematically, derive an...

1. In the space below, a. state Archimedes’ Principle b. define density c. Mathematically, derive an equation based on this laboratory that uses Archimedes principle to measure the density of an object in terms of measurable quantities. Make sure the density of the object is NOT in terms of the unknown volume of the object in question. You can assume you know the density of water. d. Be sure to draw a free-body diagram of the mass attached to the...

A group of students were tasked with collecting information about standing waves. This table is a...

A group of students were tasked with collecting information about standing waves. This table is a series of their data, showing the length of an air column and a resonant frequency present when the column is struck. Length (m) Resonant Frequency (Hz) 1 83.25 2 41.5 3 27.5 4 21 (a) From their data, determine whether the air column was open on each end or closed on one end. A.open on each end B.closed on one end     (b) Predict the...

Suppose that the demand equation: P = 6 – Q and supply equation: P = Q....

Suppose that the demand equation: P = 6 – Q and supply equation: P = Q. a. Calculate the price elasticity of demand at equilibrium. b. Calculate the equilibrium price and quantity, and consumer surplus and producer surplus. c. Suppose government imposes a unit tax of $1 on producers. Derive the new supply curve and also calculate the new equilibrium price and quantity. d. Calculate tax revenue and the deadweight loss of this tax.

1. In an experiment to study standing waves, you use a string whose mass per length...

1. In an experiment to study standing waves, you use a string whose mass per length is µ = (1.8 ± 0.1) × 10−3kg/m. You look at the fundamental mode, whose frequency f is related to the length L and tension T of the string by the following equation L = 1 2f s T µ . You make a plot with L on the y-axis and √ T on the x-axis, and find that the best fitting line is...

Assume that demand for a commodity is represented by the equation P = 30 - 0.4Qd...

Assume that demand for a commodity is represented by the equation P = 30 - 0.4Qd and supply by the equation P = 6 + 0.2Qs, where Qd and Qs are quantity demanded and quantity supplied, respectively and P is price. The market will clear at         A P = 14 and Q = 40. B P = 40 and Q = 14. C P = 20 and Q = 6. D P = 6 and Q = 20.

Rabbit population P(t) satisfying the following equation d P/ d t = kP(600-P), the initial population...

Rabbit population P(t) satisfying the following equation d P/ d t = kP(600-P), the initial population is 100 rabbits and is then growing at the rate of 10 rabbits perday. Predict rabbit’s population on day 25. (e^3=20)