In an inverse graph for wavelength versus frequency what are the units of the constant? Would they be (cm/s)/Hz or what?
Answers
Answer: centimeters per second (cm/s)
Explanation:
The relation between the frequency and the wavelenght is:
Velocity = wavelenght*frequency.
So in a relation of wavelenght vs frequency, we will have the relationship:
Where wavelenght is Y and frequency is X
wavelenght = velocity/frequency.
So the constant is the velocity, and we know that the units of the wavelenght is cm, the unit of frequency is Hz (or 1/s), so the units of the velocity is cm/s
Answer:
cm/s
Explanation:
λν=c where λ is the wavelength, ν is the frequency and c is the speed of light.
λ = c/v which is in cm/s/Hz
But we would use just cm! Because that's how we measure the wavelength in this example.
However, the constant is c, the speed of light, which we measure as a speed, so cm/s will do.
Related Questions
X-raysUV light waves Sound waves Earthquake waves All of these have which characteristic in common?
Elements that easily transmit electricity and heat display the property know as ______
Air Mass is a large body of air that has the same ____________ and ___________ throughout.
How many independent variables does a good investigator use in his or her experiment?
Answers
Hope that helped you.
Answers
A refracting telescope is a type of optical telescope that uses a lens as its objective to form an image.
What is a telescope?
Astronomers use a telescope to observe distant things. Curved mirrors are used by the majority of telescopes, including all large telescopes, to collect and concentrate light from the night sky.
Refracting telescopes have been used for centuries and are still commonly used today, especially for viewing bright objects such as the Moon and planets.
However, they have some limitations compared to other types of telescopes, such as difficulty in making large lenses without distortion and the tendency to produce chromatic aberration, which can cause images to appear blurred or discolored.
Despite these limitations, refracting telescopes remain popular among amateur astronomers and are still used in many scientific applications.
Learn more about telescopes here:
#SPJ6
Refracting telescope
Answers
Answer: C) Unscrew one light. If the other lights turn off, it's a series circuit.
Explanation:
In a series circuit, all the components in the same path. The current in the entire circuit is same. The voltage drop across each component is different. If one component does not work, the entire circuit breaks and other components also stop working. On the other hand, in a parallel circuit, voltage drop across all the components is equal. Trouble in one component does not effect other components.
Hence, to check whether the lights are connected in series or in parallel, one light should be unplugged and if the other lights still work, it means they are connected in parallel otherwise in series. Thus, correct option is C) Unscrew one light. If the other lights turn off, it's a series circuit.
Answers
From Newton's gravitational law, the force of gravity between you and the car is 5.03 x Newton strong.
NEWTON'S GRAVITATION LAW
According to Newton, the force of attraction between two masses of directly proportional to the product of the masses and inversely proportional to the square of the distance between them. That is,
F =
From the question, the given parameters are
M = 1234 kg
m = 55 kg
r = 3 m
G = 6.67 x N
Substitute all the parameters into the formula
F = (6.67 x x 1234 x 55) /
F = 4.527 x / 9
F = 5.03 x N
Therefore, the force of gravity between you and the car is 5.03 x
Newton strong.
Learn more about Gravitational force here: brainly.com/question/2537310
Gravitational force between two masses is given by formula
here we know that
now from the above equation we will have
so above is the gravitational force between car and the person
Answers