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Authors: Carl Sagan

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APPENDIX
3

 

Present Temperature of Venus If Heated by a Close Passage to the Sun

 

THE HEATING
of Venus by a presumed close passage by the Sun, and the planet’s subsequent cooling by radiation to space are central to the Velikovskian thesis. But nowhere does he calculate either the amount of heating or the rate of cooling. However, at least a crude calculation can readily be performed. An object which grazes the solar photosphere must travel at very high velocities if it originates in the outer solar system: 500 km/sec is a typical value at perihelion passage. But the radius of the Sun is 7 × 10
10
cm. Therefore a typical time scale for the heating of Velikovsky’s comet is (1.4 × 10
11
cm) / (5 × 10
7
cm/sec)
3000 secs, which is less than an hour. The highest temperature the comet could
possibly reach because of its close approach to the Sun is 6,000° K, the temperature of the solar photosphere. Velikovsky does not discuss any further sun-grazing events by his comet; subsequently it becomes the planet Venus, and cools to space—events which occupy, say, 3,500 years up to the present. But both heating and cooling occur radiatively, and the physics of both events is controlled in the same way by the Stefan-Boltzmann law of thermodynamics, according to which the amount of heating and the rate of cooling both are proportional to the temperature to the fourth power. Therefore the ratio of the temperature increment experienced by the comet in 3,000 secs of solar heating to its temperature decrement in 3,500 yrs of radiative cooling is (3 × 10
3
secs/10
11
secs)1/4 = 0.013. The present temperature of Venus from this source would then be at most only 6000 × 0.013 = 79° K, or about the temperature at which air freezes. Velikovsky’s mechanism cannot keep Venus hot, even with very generous definitions of the word “hot.”

The conclusion would not be altered materially were there to have been several close passes, rather than just one, through the solar photosphere. The source of the high temperature of Venus cannot be one or a few heating events, no matter how dramatic. The hot surface requires a continuous source of heat—which could be either endogenous (radioactive heating from the planetary interior) or exogenous (sunlight). It is now evident, as suggested many years ago (see Wildt, 1940; Sagan, 1960), that the latter is the case: it is the present radiation of the Sun, continuously falling on Venus, which is responsible for its high surface temperature.

APPENDIX
4

 

Magnetic Field Strengths Necessary to Circularize an Eccentric Cometary Orbit

 

ALTHOUGH VELIKOVSKY
has not, we can calculate approximately the order of magnitude of the magnetic field strength necessary to make a significant perturbation on the motion of a comet. The perturbing field might be from a planet, such as Earth or Mars, to which the comet is about to make a close approach, or from the interplanetary magnetic field. For this field to play an important role, its energy density must be comparable to the kinetic energy density of the comet. (We do not even worry about whether the comet has
a distribution of charges and fields which will permit it to respond to the imposed field.) Thus, the condition is

 

where B is the magnetic field strength in gauss, R is the radius of the comet, m its mass, v its velocity and
ρ
its density. We note that the condition is independent of the mass of the comet. Taking a typical cometary velocity in the inner solar system of about 25 km/sec, and
ρ
as the density of Venus, about 5 gm/cm
3
, we find that a magnetic field strength of over 10 million gauss is required. (A similar value in electrostatic units would apply if the circularization is electrical rather than magnetic.) Earth’s equatorial surface field is about 0.5 gauss. The fields of Mars and Venus are less than 0.01 gauss. The Sun’s field is several gauss, ranging up to several hundred gauss in sunspots. Jupiter’s field as measured by Pioneer 10 is less than 10 gauss. Typical interplanetary fields are 10
−5
gauss. There is no way to generate anything approaching a 10 megagauss field on a large scale in the solar system. And there is no sign that such a field was ever experienced in the vicinity of Earth. We recall that the magnetic domains of molten rock in the course of refreezing are oriented by the prevailing field. Had Earth experienced, even fairly briefly, a 10 Mg field 3,500 years ago, rock magnetization evidence would show it clearly. It does not.

 

The
New York Times
Bestseller

 

COMET

 

by
Carl Sagan and Ann Druyan

 

What are these graceful visitors to our skies? We now know that they bring both life and death and teach us about our origins. In
Comet
, Pulitzer Prize-winning astronomer Carl Sagan and writer Ann Druyan explore the origin, nature, and future of comets, and the exotic myths and portents attached to them. Lavishly illustrated and including new material, this edition of
Comet
is indispensable for anyone who has ever gazed up at the heavens and wondered why.

COMET
by Carl Sagan and Ann Druyan

 

Published by The Random House Publishing Group.
Available in bookstores everywhere.

 

Carl Sagan and acclaimed author Ann Druyan show us the roots of the human species in

 

SHADOWS OF
FORGOTTEN
ANCESTORS

 

A thrilling account of how humans got to be the way we are,
Shadows of Forgotten Ancestors
begins its saga with the origin of the Earth and shows that many of our key traits—self-awareness, family ties, reason, ethics, submission to authority, and hatred for those who are different—are rooted in the deep past and illuminated by our kinship with other animals.

SHADOWS OF FORGOTTEN ANCESTORS

 

by Carl Sagan and
Ann Druyan

 

Published by The Random House Publishing Group.
Available wherever books are sold.

 

The
New York Times
Bestseller

 

BILLIONS
&
BILLIONS

 

by
Carl Sagan

 

In the final book of his astonishing career, Carl Sagan brilliantly examines the burning questions of our lives, our world, and the universe around us. These luminous, entertaining essays travel both the vastness of the cosmos and the intimacy of the human mind. Here, too, is a rare private glimpse of Sagan’s thoughts about love, death, and spirituality as he struggled with fatal disease. Ever forward-looking and vibrant with the sparkle of his unquenchable curiosity,
Billions & Billions
is a testament to one of the great scientific minds of our day.

BILLIONS & BILLIONS
by Carl Sagan

 

Published by The Random House Publishing Group.
Available in bookstores everywhere.

 

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