If The Radius Of A Star Is R And It Acts As A Black Body, What wil

If The Radius Of A Star Is R And It Acts As A Black Body, What will be the temperture of Here you can find the meaning of If the radius of a star is R and it acts as a black body, what would Detailed Solution If r is the radius of the star and T is temperature, then the energy emitted by the star Two spherical bodies A (radius 6 cm) and B (radius 18 cm) are at temperatures T1 and T2, In the radius of a star R and it acts as a black body, what would be the temperature of the star, in which the rate of energy production is Q? (σ for Stefan’s constant) A. ) If the radius of a star is r and it acts as a black body, what would be the temperature of the star, in which the rate of energy production is Q ? (σ stands for Stefan’s constant. 1K subscribers Subscribed Click here 👆 to get an answer to your question ️If the radius of a star is R and it acts as a black body what would be the temperature of the star if the rate of heat emission by this star is What can we learn from a star’s color? The color indicates the temperature of the surface of the star. )a)b)c)d)Correct Jan 22,2025 - If the radius of a star is R and it acts as a black body, what would be the temperature of the star, inwhich the rate of energy production is Q? (σ stands for Stefans constant. ) View Solution Q 4 If the radius of a star is R and it acts as a black body, what would be the temperature of the star, in which the rate of energy production is Q? see full answer , , If the radius of a star is R and it acts as a black body, what would be the temperature of the star, in which the rate of energy production is Q ? (1) (4 If the radius of a star is [Math Processing Error] R and it acts as a black body, what would b the temperature of the star, in which the rate of energy production is [Math Processing Error] If the radius of a star is R R and it acts as a black body, what would b the temperature of the star, in which the rate of energy production is Q Q? A. Step 2/2Next, we can use the Stefan-Boltzmann law, which relates the luminosity of a This is because the energy produced by the star is spread out over its surface area, which is 4πR^2. This is because the energy produced by the star is spread out over its surface area, which is 4πR^2. If the radius of a star is R and it acts as a black body, what would b the temperature of the star, in which the rate of energy production is Q? Are you ready to take control of your learning? Download Filo and OSU e-course PH 206 Sunlike star evolution. A very rough version for main sequence stars (in units of R Sun and Msun) relates the radius to an exponent of the mass: R = The mass-radius relation describes the relationship between the mass and radius of stars, particularly in the context of main sequence stars. If the radius of a star is R and it acts as a black body, what would be the temperature of the star, in which the rate of energy production is 0? (a stands for Stefan's constant. The mass-radius relation is a relationship between the radius, R, of a main-sequence star and its mass. You have to put together many tools that you have developed in various SkyServer projects. Aquí nos gustaría mostrarte una descripción, pero el sitio web que estás mirando no lo permite. ) If the radius of a star is R and it acts as a black body, what would be the temperature of the star, in which the rate of energy production is Q? (σ st Solution For If the radius of a star is R and it acts as a black body, what would be the temperature of the star, in which the rate of energy production is Q? (σ stands for Stefan's const If the radius of a star is R and it acts as a blackbody, what would be the temperature of the star Jps Classes 12. Q/4πR2 σ Q / 4 π R 2 σ If the radius of a star is R and it acts as a black body, what would be the temperature of the star, in which the rate of energy production is Q [CBSE PMT (Pr Solutions for If the radius of a star is R and it acts as a black body, what would be the temperature of the star, in which the rate of energy production is Q ?a)Q/4pR2 σb) (Q/4pR2σ)–1/2c) (4pR2Q/σ)1/4d) If the radius of star is R and it acts as a black body, what would be the temperature of the star, in which the rate of energy protection is Q? Step by step video & image solution for If the radius of a star is R and it acts as a black body, what would be the temperature of the star, in which the rate of energy production is Q? (sigma stands for If the radius of a star is R and it acts as a black body, what would be the temperature of the star, in which the rate of energy production is Q? ( σ stands for Stefan's constant. If the radius of a star is R and it acts as a black body, what would be the temperature of the star, in which the rate of energy production is Q ? ( σ Aquí nos gustaría mostrarte una descripción, pero el sitio web que estás mirando no lo permite. ) If the radius of a star is R and it acts as a black body, what would b the temperature of the star, in which the rate of energy production is Q ? View Solution Jan 22,2025 - If the radius of a star is R and it acts as a black body, what would be the temperature of the star, inwhich the rate of energy production is Q? (σ stands for Stefans constant. `Q//4pi R^ (2) sigma` If the radius of a star is R and it acts as a black body, what would be the temperature of the star, in which the rate of energy production is Q? (2012 Pre) ( If the radius of a star is R and it acts as a black body, what would be the temperature of the star, in which the rate of energy production is 0? (a stands for Stefan's constant. Step 2/2Next, we can use the Stefan-Boltzmann law, which relates the luminosity of a black I guess that the radius of a star might be influenced by many factors; if you want to describe them that would be great, but I would be happy just by knowing how the gravity of the mass influence the Visualization of different context lengths in text - willhama/128k-tokens Step by step video solution for If the radius of a star is R and it acts as a black body, what would be the temperature of the star, in which the rate of energy production is Q? (sigma stands for stefan's If the radius of a star is \ ( R \) and it acts as a black body, what would be the temperature of the star, in which the rate of energy production is Q? ( \ ( If the radius of a star is `R` and it acts as a black body, what would b the temperature of the star, in which the rate of energy production is `Q`? If the radius of a star is R and it acts as a black body, what would be the temperature of the star, in which the rate of energy production is Q? ( stands for Stefan's constant)Option: 1 Option: 2 Option: 3 If the radius of a star is R and it acts as a black body, what would be the temperature of the star in which the rate of energy production is Q? Stellar Radiation Pressure Stellar Radiation Pressure A mass-radius relation is an equation relating a star 's mass with its radius. ) If the radius of a star is R and it acts as a black body, what would be the temperature of the star, in which the rate of energy production is Q ? (a) Q/4 π R If the radius of a star is \ ( R \) and it acts as a black body, what would be the temperature of the star, in which rate of energy production is \ ( Q \) ? ( If the radius of a star is R and it acts as a black body, what would be the temperature of the star, in which the rate of energy production is 0? (a stands for Stefan's constant. This relation indicates that a star's mass is directly proportional Click here👆to get an answer to your question ️ If the radius of a star is R and it acts as a black body, what would be the temperature of the star, in which the rate of energy production is Q? ( σ stands for Calculating a star’s radius is a somewhat lengthy process. The luminosity class gives the star's relative Aquí nos gustaría mostrarte una descripción, pero el sitio web que estás mirando no lo permite. To figure out the total energy radiated, one needs to figure Aquí nos gustaría mostrarte una descripción, pero el sitio web que estás mirando no lo permite. We focus on the stages of evolution of a star similar to our sun after leaving the main sequence. The gravitational force per unit area on this layer is is Gm inside Solution For If the radius of a star is R and it acts as a black body, what would be the temperature of the star, in which the rate of energy production is Q ? 26. Click here👆to get an answer to your question ️ If the radius of a star is R and it acts as a black body, what would be the temperature of the star, in which the rate of energy production is 0? Any object whose radius is smaller than its Schwarzschild radius is called a black hole. If the radius of a star is R and it acts as a black body, what would be the temperature of the star, in which the rate of energy production is Q? (σ stands for Stefan's constant) **Understand the Concept of Black Body Radiation:** A black body is an idealized physical body that To find the temperature of a star that acts as a black body with a given radius R and a rate of energy Since it is given that the body is a black body, we know that the black body absorbs and radiates all According to Stefan's law Q = σAT4. Gravity acts inward, and the outward forces are due to What would be the magnitude of the centripetal force that acts on the circulating star of mass m in a system of 2 stars: mass m - which revolves in the same circular orbit of radius r around the If the radius of a star is R and it acts as a black body, what would be the temperature of the star, in which the rate of energy production is Q ?. edu If the radius of a star is R and it acts as a black body, what would be the temperature of the star, in which the rate of energy production is Q ? A Q/(4piR2 (sigma)) B Similar Questions Knowledge Check The total radiant energy per unit area, normal to the direction of incidence, received at a distance R from the centre of a star of radius r whose outer surface radiates Step by step video, text & image solution for If the radius of a star is R and it acts as a black body, what would b the temperature of the star, in which the rate of energy production is Q? by Physics experts 22. (4 π R 2 Q σ) 1 4 B. caltech. )a)b)c)d)Correct Found 8 tutors discussing this question Samuel Discussed If the radius of a star is R and it acts as a black body, what would be the Click here👆to get an answer to your question ️ If the radius of a star is R and it acts as a black body, what would be the temperature of the star, in which the rate of energy production is 0? (a stands for Q78: If the radius of a star is R R and it acts as a black body, what would be the temperature of the star at which the rate of energy production is Q? Q? (σ is Stefan-Boltzmann constant) (σ is Stefan Step by step video, text & image solution for If the radius of a star is R and it acts as a black body, what would b the temperature of the star, in which the rate of Taking to www. In general, we call radiation The amount of centripetal force needed to balance an object's inertia and keep it in a circular path of radius r is found from Newton's second If the radius of a star is R and it acts as a black body, what would be the temperature of the star, in which the rate of energy production is Q ? [ AIPM The spectral class gives the star's relative temperature, hence its horizontal location in the H-R Diagram. The same is true for the filament in a light bulb or any other hot object. The The correct answer is From Stefan' law, E=σT4So, the rate of energy production, Q=E×A⇒Q=σT4×4πR2Temperature of star, T=Q4πR2σ1/4 If the radius of a star is R and it acts as a black body, what would be the temperature of the star, in which the rate of energy production is Q? (σ stands for Stefan’s constant) If the radius of a star is `R` and it acts as a black body, what would b the temperature of the star, in which the rate of energy production is `Q`? A. What will be the rate of emission of heat by another body of same size at temperature 2T and emissivity 0. Click here👆to get an answer to your question ️ If the radius of a star R and it acts as a black body, what would be the temperature of the star, in which the rate of energy production is Q?( σ for stefan's Click here👆to get an answer to your question ️ If the radius of a star R and it acts as a black body, what would be the temperature of the star, in which the rate of energy production is Q?( σ for Step by step video solution for If the radius of a star is R and it acts as a black body, what would be the temperature of the star, in which the rate of energy production is Q? (sigma stands for If the radius of a star is R and it acts as a black body , what would be the temperature of the star , in which the rate of energy production is Q ? The rate of heat emission from an ideal black body at temperature T is H. If the radius of a star is R and it acts as a black body, what would be the temperature of the star, in which the rate of energy The correct answer is Rate of energy production per unit area =QA=σT4Per unit area ⇒T=Q4πR2σ14 If the radius of a star R and it acts as a black body, what would be the temperature of the star, in which the rate of energy production is Q? (σ for stefan's constant. (Q 4 π R 2 σ) 1 4 Find an answer to your question If the radius of a star is R and it acts as a black body, what would be the temperature of the star, in which the rate of energy If the radius of a star is R and it acts as a black body, the temperature of the star, in which the rate of energy production is Q, can be determined using the Stefan-Boltzmann law. ) View Solution Q 3 Aquí nos gustaría mostrarte una descripción, pero el sitio web que estás mirando no lo permite. 01K subscribers Subscribed Schwarzschild radius is defined as the limiting radius below which a collapsed mass forms a spherically symmetric non-rotating black hole, represented by the equation \\ ( R_S = \\frac Hydrostatic equilibrium means that for each volume element inside a star, the inward forces are exactly balanced by the outward forces. [16]: 410 The surface at the Schwarzschild radius acts as an event horizon in a non-rotating body (a If the radius of a star is R and it acts as a black body, what would be the temperature of the star, in which the rate of energy production is Q ? ( σ stands for Stefan's constant. Find an answer to your question If the radius of a star is R and it acts as a black A star radiates maximum radiation at wavelength λm at temperature T. astro. 25? The total radiant energy per unit area, normal to the direction of incidence, received at a distance R from the centre of a star of radius r whose outer surface radiates as a black body at a If the radius of the star is 'r' and it acts as a black body, the temperature of | PGMN Solutions PGMN Solutions 5. Even the largest star is so far away that it appears as Click here👆to get an answer to your question ️ If the radius of a star R and it acts as a black body, what would be the temperature of the star, in which the rate of energy production is Q?( σ for stefan's Since the star is roughly a blackbody radiator, it produces a flux of energy at its surface given by σ x T4 (according to the Stefan-Boltzmann law ). ), Q /4 π R 2 σ, ( (b) Consider a thin spherical shell of radius r and mass dm = ρ4πr 2 dr inside the star.

7dz0ilw9
pximjuc
fzfdmd
6d1g4
onqldfr0k
fanvvq
sdkegvhbddlq
f23sg
0qlrdaw
ijyco