**Problem Statement:**Obtain the wavelengths in vacuum for:- (a) Blue light whose frequency is \(6.45 \times 10^{14}\) Hz- (b) Orange light whose frequency is \(4.99 \times 10^{14}\) HzExpress your answers in nanometers.**Input Fields:**(a)- Number: [Input Box]- Units: [Dropdown](b)- Number: [Input Box]- Units: [Dropdown]**Explanation:**This problem involves calculating the wavelength of light based on its frequency using the formula:\[ \lambda = \frac{c}{f} \]where:- \( \lambda \) is the wavelength,- \( c \) is the speed of light (\(3.00 \times 10^8\) meters/second),- \( f \) is the frequency.The result should be converted into nanometers (1 meter = \(1 \times 10^9\) nanometers).

Frequency of blue light, νb= 6.45×1014 HzFrequency of orange light, νo = 4.99 × 1014 HzThe speed of…

Obtain the wavelengths in vacuum for (a) blue light whose frequency is 6.45 x 1014 Hz, and (b) orange light whose frequency is 4.99 x 1014 Hz. Express your answers in nanometers. (a) Number (b) Number i Units Units

Obtain the wavelengths in vacuum for (a) blue light whose frequency is 6.45 x 1014 Hz, and (b) orange light whose frequency is 4.99 x 1014 Hz. Express your answers in nanometers. (a) Number (b) Number i Units Units

College Physics

11th Edition

ISBN:9781305952300

Author:Raymond A. Serway, Chris Vuille

Publisher:Raymond A. Serway, Chris Vuille

Chapter1: Units, Trigonometry. And Vectors

Section: Chapter Questions

Problem 1CQ: Estimate the order of magnitude of the length, in meters, of each of the following; (a) a mouse, (b)...

See similar textbooks

Related questions

Q: intensity (arbitrary unit) Assuming the reflection spectrum of an object consisting of two…

A: The objective of the question is to calculate the CIE coordinates of the reflected spectrum from an…

Q: For electromagnetic waves with each of these frequencies, find the wavelength in vacuum. In what…

Q: Radio station KUTD broadcasts its radio signal at a frequency of 1.08E8 Hz from an antenna tower.…

A: Solution:Given:f = frequency of radio signal = 1.08 x 108 HzP = total power broadcasted by antenna =…

Q: Problem 5: Electromagnetic radiation from a 5.05-mW laser is concentrated on a 1.05-mm2 area.…

A: Given, Electromagnetic radiation from, Power, P = 5.05 mW Area, A = 1.05 mm2

Q: You make a telephone call from New York to a friend in London. Estimate how long it will take the…

A: As we know, the electromagnetic signal travels with speed of light c , 3 × 10⁸ m/s.And the distance…

Q: The frequency of a microwave signal from a satellite in space is 9.89 GHz. What is its wavelength?…

A: Given data: The frequency of signal is f=9.89 GHz. Speed of light is c=3×108 m/s.

Q: Determine the frequency of red visible light (λ = 650 nm) (GIVEN: 1 m = 10⁹ nm) Answer: Tip: To…

A: Formula

Q: The cylindrical beam of a 10.5-mW laser is 0.880 cm in diameter. What is the rms value of the…

A: The problem is asking for the root mean square (rms) value of the electric field of a laser beam.…

Q: If electric and magnetic field strengths vary sinusoidally in time, being zero at t=0, then E=E0 sin…

A: Given: The electric field E=Eosin2πft The magnetic field B=Bosin2πft The frequency f = 1.00 GHz.

Q: Problem 3 The electric field intensity of a time-harmonic plane electromagnetic wave is given by…

A: The electric field is E(x,y,z,t)=ax.126sin(109t-6y+8z-0.2) Comparing with E(x,y,z)=E0sin(wt-k.r-ϕ)…

Q: Problem 5: The wavelength range of visible light is usually taken to be from 400 to 700 nm,…

A: The wavelength range of visible light is usually taken to be from 400 to 700 nmThis range is usually…

Q: Problem 12: TV-reception antennas for VHF are constructed with cross wires supported at their…

A: Given:Length of first channel L1 = 1.96 mLength of first channel L2 = 0.753 mFind : (a) Frequency…

Q: Obtain the wavelengths in vacuum for (a) blue light whose frequency is 6.46 x 1014 Hz, and (b)…

Q: Assume the following waves are propagating in air. Calculate the wavelength X2 for visible light of…

A: a) frequency of gamma ray ϑ1 = 7.3×1021 HzSpeed of light wave in air is c = 3×108 m/slet λ1 denotes…

Q: Given c = 入v in a vacuum where c is the speed of light, 入 is the wavelength and v is the frequency.…

A: Given:Relation is given c=vλ where c is speed of light, v is frequency and λ is wavelengthTo Find:1.…

Q: A laser pointer (as shown in the figure below) supplies an output power of P = 3.78e-03 Watts at a…

Q: Pls help ASAP

A: Dear student The relation between frequency (f), wave velocity (v) and wavelength (y) is given as :…

Q: The range of visible light (the light detected by the human eye) is usually denoted as 380nm to…

A: Given:Minimum wavelength, λmin = 380 nm = 380×10-9 mMaximum wavelength,λmax = 700 nm = 700×10-9…

Q: Find the frequency f in terahertz of visible light with a wavelength of 493 nm in vacuum. f = %3D

A: The relation between the frequency and wavelength is f =cλ where, c is the velocity of light.

Q: (a) What is the wavelength of 133-MHz radio waves used in an MRI unit? 2.25 (b) If the frequencies…

A: Given, frequency, f = 133 MHz

Q: Microwaves are produced with an intensity of 1.42 W/m which are polarized at an angle of -84.1…

Q: Determine the frequency of light at 3.55 x 102 nm and 6.71 x 10² nm. (a) 3.55 × 10² nm Hz (b) 6.71 x…

Q: Figure 16 N 165 55° 28 kg

Q: Problem 4: Consider the 100-MHz radio waves used in an MRI device. Part (a) What is the…

Q: As light travels in an absorbing medium, the rate of decrease in intensity is proportional to the…

A: The differential equation provided by Bouguer and its mathematical form given by Lambert is l =…

Q: (11%) Problem 5: Consider the 100-MHz radio waves used in an MRI device. E A 33% Part (a) What is…

A: We know that for an electromagnetic wave, c=λfWhere, c= speed of light in free spaceλ= wavelenghtf=…

Q: A plane electromagnetic wave traveling in a vacuum has a frequency of ( f= 101º Hz ) and the…

Question

**Problem Statement:**

Obtain the wavelengths in vacuum for:
- (a) Blue light whose frequency is \(6.45 \times 10^{14}\) Hz
- (b) Orange light whose frequency is \(4.99 \times 10^{14}\) Hz

Express your answers in nanometers.

**Input Fields:**

(a)
- Number: [Input Box]
- Units: [Dropdown]

(b)
- Number: [Input Box]
- Units: [Dropdown]

**Explanation:**

This problem involves calculating the wavelength of light based on its frequency using the formula:

\[ \lambda = \frac{c}{f} \]

where:
- \( \lambda \) is the wavelength,
- \( c \) is the speed of light (\(3.00 \times 10^8\) meters/second),
- \( f \) is the frequency.

The result should be converted into nanometers (1 meter = \(1 \times 10^9\) nanometers).

Expert Solution

This question has been solved!

Explore an expertly crafted, step-by-step solution for a thorough understanding of key concepts.

This is a popular solution!

SEE SOLUTION Check out a sample Q&A here

Step 1: Given:

VIEW

Step 2: Calculating wavelength for blue and orange light:

VIEW

Solution

VIEW

Trending now

This is a popular solution!

Step by step

Solved in 3 steps with 1 images

SEE SOLUTION Check out a sample Q&A here

Knowledge Booster

Learn more about

Need a deep-dive on the concept behind this application? Look no further. Learn more about this topic, physics and related others by exploring similar questions and additional content below.

Similar questions

Which of the following is least reasonable regarding light waves? a) Ultraviolet light has a shorter wavelength and lower frequency than visible light. b) Frequency is equal to the speed of the wave divided by the wavelength of the wave. c) An apple which appears red in white light would appear black when illuminated by blue light. d) Light visible to the human eye is the part of the electromagnetic spectrum with wavelengths roughly in the range of 400-700 nanometers. e) A banana appears yellow because it reflects red and green colors while absorbing blue.
The wavelength of a light in air is 559 nm. What is its frequency?
In a dentist's office, an X-ray of a tooth is taken using X-rays. What is the frequency in a vacuum if the wavelength is 4.76x10^-11 meters?
For calculations, take the typical frequency of visible light and aluminum conductivity ω = 4 x 1015 s-1 σ = 3.8 x 107 Ohm/m