Explain what happens to the pressure difference inside a soap bubble a) If the radius of...

A soap bubble with n=1.33 is illuminated by white light and produces constructive interference for a...

A soap bubble with n=1.33 is illuminated by white light and produces constructive interference for a wavelength of 410 nm. The bubble is in air. a. Sketch the situation indicating where the light is reflected and what the indices of refraction are at each reflection. b. Is the reflected wave inverted at the air-to-bubble interface? Explain. c. Is the reflected wave inverted at the bubble-to-air interface? Explain. d. What is the minimum thickness of the bubble to produce constructive interference...

A soap bubble (n 5 1.33) having a wall thickness of 120 nm is floating in...

A soap bubble (n 5 1.33) having a wall thickness of 120 nm is floating in air. (a) What is the wavelength of the visible light that is most strongly reflected? (b) Explain how a bubble of different thickness could also strongly reflect light of this same wavelength. (c) Find the two smallest film thicknesses larger than the one given that can produce strongly reflected light of this same wavelength.

A soap bubble (n = 1.37) having a wall thickness of 124 nm is floating in...

A soap bubble (n = 1.37) having a wall thickness of 124 nm is floating in air. (a) What is the wavelength of the visible light that is most strongly reflected? nm (b) Explain how a bubble of different thickness could also strongly reflect light of this same wavelength. (c) Find the two smallest film thicknesses larger than the one given that can produce strongly reflected light of this same wavelength. nm (smaller thickness) nm (larger thickness)

what happens to the glomerular capillary pressure and GFR when you decrease the afferent radius? increase...

what happens to the glomerular capillary pressure and GFR when you decrease the afferent radius? increase it? why do you suppose this occurs?

Calculate the pressure, $P(r)$ inside a sphere of radius, $R_+$ with a constant density, $\rho$. Explain...

Calculate the pressure, $P(r)$ inside a sphere of radius, $R_+$ with a constant density, $\rho$. Explain your assumptions and your reasoning carefully at each step.

A soap bubble (n = 1.29) floating in air has the shape of a spherical shell...

A soap bubble (n = 1.29) floating in air has the shape of a spherical shell with a wall thickness of 111 nm. (a) What is the wavelength of the visible light that is most strongly reflected? nm (b) Explain how a bubble of different thickness could also strongly reflect light of this same wavelength. This answer has not been graded yet. (c) Find the two smallest film thicknesses larger than 111 nm that can produce strongly reflected light of...

What happens in VC when there is decreased lung compliance?Explain what happens to the baseline pressure...

What happens in VC when there is decreased lung compliance?Explain what happens to the baseline pressure in pressure trigger, when the initiates a control breath?

A SCUBA diver produces a spherical air bubble with bulk modulus B = 1.2 x 105...

A SCUBA diver produces a spherical air bubble with bulk modulus B = 1.2 x 105 Pa and radius r1 = 2.9 mm while exploring a shipwreck below the surface of the ocean. The air bubble rises to the surface of the ocean and expands to a radius r2  = 3.8 mm. What is the difference in pressure between the surface and at the SCUBA diver's depth, ( Psurface − P diver )?

Let's think about the difference between gauge and absolute pressure. Have you ever experienced the explosive...

Let's think about the difference between gauge and absolute pressure. Have you ever experienced the explosive opening of a swelled up yogurt container you just bought from the store? It likely was manufactured at a different elevation with a different absolute atmospheric pressure. What change happens to the gauge pressure inside after being shipped to a different elevation and why? Describe in detail one real-life example where this situation might come in to play. (You might think of an example...

THE BUBBLE MOMENT A physical pendulum is composed a rod of length 26 cm and radius...

THE BUBBLE MOMENT A physical pendulum is composed a rod of length 26 cm and radius 3.2 cm suspended downward from one of its ends. At the bottom, free end, there is a large, circular bubble of the same radius as the rod so that it is wholly within the rod, but as far towards the bottom as possible. (a) If the rod has a density of 9 g/cm3, what is its mass? (b) Find its center of mass if...