As critical velocity is the minimum velocity required to put a satellite into orbit. And orbital velocity is the velocity required to keep a satellite moving in an orbit.The value of critical velocity I found is 7.9km/s.On various sites it is written that there is a difference between orbital velocity and critical velocity ,but when I found the value of orbital velocity by formula v equals square root GM/R it comes 7.9km/s by putting standard values for G,M AND R .As these values are same can anyone tell me, why is there a difference between two?
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$\begingroup$ More on cosmic velocities: physics.stackexchange.com/q/179227/2451 $\endgroup$– Qmechanic ♦Commented May 10, 2018 at 7:00
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$\begingroup$ Hmm!I haven't found any thing related to my question, except that formula. $\endgroup$– Rabik JohnCommented May 10, 2018 at 7:04
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3 Answers
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I have not used the term critical velocity so have used your definitions of orbital and critical velocity.
orbital velocity is the velocity required to keep a satellite moving in an orbit
For a circular orbit this is found by using Newton's second law with the gravitational attractive force $\frac {GMm}{R^2}$ producing the centripetal acceleration $\frac{v_{\rm orbital}^2}{R}$ for a satellite of mass $m$.
$\frac {GMm}{R^2} = m \frac{v_{\rm orbital}^2}{R} \Rightarrow v_{\rm orbital} = \sqrt{\frac{GM}{R}}$
critical velocity is the minimum velocity required to put a satellite into orbit
Ignoring the rotation of the Earth and any effects due to the atmosphere you will need to give a satellite enough kinetic energy $\frac 12 mv^2_{\rm critical}$ at launch to enable it to increase its gravitational potential energy $\frac{GMm}{R_{\rm Earth}} - \frac{GMm}{R }$ and then have enough kinetic energy left $\frac 12 m v^2_{\rm orbital}$ to go into orbit.
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$\begingroup$ I want to know that ,critical and orbital velocities have same valuesthen why they are called different? I can't get my answer from your answer. $\endgroup$ Commented May 10, 2018 at 11:13
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$\begingroup$ @RabikJohn My answer shows that the values of critical speed and orbital speed are different. $\endgroup$– FarcherCommented May 10, 2018 at 12:38
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$\begingroup$ But,I get the same values for both .The value of critical velocity is 7.9km/s and value for orbital velocity also comes 7.9km/s ,after putting values in formula v equals to square root GM/R $\endgroup$ Commented May 11, 2018 at 4:26
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$\begingroup$ @RabikJohn The only time the two speeds can be the same is for an orbit of radius equal to the radius of the Earth when there is no gain in gravitational potential energy. $\endgroup$– FarcherCommented May 11, 2018 at 5:30
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1$\begingroup$ @RabikJohn So I think that your question has been answered? $\endgroup$– FarcherCommented May 11, 2018 at 7:13
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Orbital velocity depends upon height of satellite It is given by v= square root of (ghR) where h is the height of satellite and R is the radius of earth Critical velocity is a constant value and its value on earth is 7.9km/s It does not depends upon altitude It gives the velocity of smallest possible orbit given that there is no air friction and other retarding factors
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2$\begingroup$ Please use MathJax to make formulas in your post readable. $\endgroup$ Commented Feb 19, 2019 at 17:19
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The orbital velocity is given by, V(orbital) = $\sqrt{GMe/R}$ , Where R is the sum of radius of earth and the altitude at which the sattelite is revolving. R = Radius + Altitude, So its value will be always greater than or equal to critical velocity. Critical velocity is the minimum velocity required to put a sattelite to orbit while orbital velocity can be any velocity greater than critical velocity.Orbital velocity can be equal to or greater than the critical velocity.I hope you understood.
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$\begingroup$ This answer was already given by someone else. $\endgroup$– MiyaseCommented Apr 29, 2023 at 8:04