1. A satellite is revolving very close to earth. what is the % increases in velocity needed to escape from the gravitational field of earthHomework Equations
v= root gh
The Attempt at a Solution
Sorry, i don't have any solution .
I got a question from my exam. We are given the name of three fields; electric field, magnetic field and gravitational field. A charged particle is placed in a field, but no force will act on it if it's stationary or moving in any direction. What field is the particle placed in?
Consider a solid globe of mass M and of of uniform density. My understanding is that its external gravitational field, in the absence of any other forces, will apply an instantaneous acceleration to any small test mass directly towards the center of the globe.
Is that still true in the...
Suppose we have a large circular disk with pegs around the perimeter, and we set the disk rotating so that one pegs passes us every second. Then, we move this disk to a gravitational field, such that one side of the disk is closer to the gravitational mass than the other.
From our perspective...
Homework Statement
Homework Equations
g = GM / r^2, where g is the gravitational field strength, G is the gravitational constant, M is the mass of the attracting body, r is the radius of the attracting body.
p = M / v, where p is density and v is the volume.
Vs = 4/3 * pi * r^3, where Vs is...
Hi.
In class, the professor has tried to derive the equation by using the principle of least-action. (But not yet completed. Maybe next class...)
However I heard this method is used by Hilbert, who had derived the equation 5 days before Einstein derived it.
Then, what method did Einstein use...
Homework Statement
A 12 kg meteor experiences an acceleration of 7.2 m/s^2 when falling towards the earth.
a) How high above the Earth's surface is the meteor?
b) What force will a 30 kg meteor experience at the same altitude?
Homework Equations
Fg= Gm1m2/r2 m1m2
r2 = Gm1m2/Fg
r =...
Desloge (1989) published the article: ## '##Non-equivalence of a uniformly accelerating reference frame and a frame at rest in a uniform gravitational field## '##. His result, briefly resumed: a uniform gravitational field is not flat, is quite interesting. But the way he proves the result is...
Homework Statement
A thin uniform rod of mass M and length L is centered at the origin and lies along
the x axis. Find the gravitational field due to the rod at all points on the x-axis in the
region
Picture adjunct
Homework Equations
My two question are:
Why r is'not the difference between...
If EM waves create gravitational field "around" them (as I understand is the case) which reference frame we should use?
We could imagine several observers, some moving in the same direction with EM wave with different speeds, others moving in the opposite direction. The different observers...
So, I'm attempting to programm orbit in Unity game engine. So I need equation that shows r and phi depending on time.
Equation for gravitational potential is
U(r)=-k/r+M^2/(2*μ*r^2). Force is -1*derivation of U(r) by r. So I get lots of stupid stuff.
If anybody could help me to...
In General Relativity spacetime is described by a metric. The most common one is the Schwarzschild metric, valid at radii greater than the surface radius of a mass. If we assume constant angular position so that dθ=dø=0, then this metric relates local (proper) coordinate time and distance dτ...
Homework Statement
A rubber band at temperature ##T## is fastened at one end to a peg and supports from its other end a weight ##W##. Assume as a simple microscopic model of the rubber band that it consists of a linked polymer chain of ##N## segments joined end to end; each segment has length...
I am trying to learn Physics an dI am reading a booK about classical mechanics.I a stuck somewhere in there If you know a gravitational force to a uniform rod I saw there a x and dx Why we need them ?
Thanks!
I was studying the equations of free fall and of launch when I realize that those equations are spetial case of a object in motion through of a gravitational field. So exist some general equation that describe the motion (the trajetory*) of the object through of the field (using initial values...
Hi, I am a bit confused with the relationship between gravitational field strength and gravitational potential. As far as I know, gravitational field strength is defined as:
g=\frac{F}{m}=\frac{GM}{R^{2}}
and gravitational potential is defined as:
V=\frac{-GM}{R}
Now if I...
I'm reading:
http://www.feynmanlectures.caltech.edu/I_13.html#Ch13-S4
1. In the link it says:
##2\pi\rho d\rho## is the area of the ring of the radius ##\rho## and width ##d\rho##, if ##d\rho \ll \rho##.
Why is this true??
2. A bit further down in the text it says:
Since ##r^2 =...
hi everyone. I'm having trouble understanding the concept of proper time in general relativity.
suppose we have some metric given by a fixed mass distribution, say schwarzschild or something (it's not important) and a test particle go over some path between two events A and B.
if we want...
I have been learning that gravity has a negative energy associated with it. I've heard this stated a couple different ways, but I would like to understand a distinction. One line of thought declares that the potential energy of an object within a gravitational field is negative. Another line...
Symmetry is an important way to find new physical laws according to Feynman. The equation that describes the electric field and the gravitational field are quite similar. Since the electric and magnetic fields are well defined by the Maxwell equations could it be possible, by symmetry, that...
Let us say that we have small object of mass ##m## at some location far away from the Earth (with zero velocity compared to the earth). The energy of this object is according to relativity ##E=mc^2##.
Now we drop this object and it starts falling towards the earth, transforming potential...
In general relativity, the source of the gravitational field is the "stress-energy tensor"
I know that thing is not just energy.
Can some one explain what this quantity is?
It's just a 'thing' that just happens to work mathematically and means nothing else?
Homework Statement
A thin hemispherical shell of mass M and radius R is placed as shown in figure. The magnitude of gravitational field at P due to the hemispherical shell is ##I_0##. The magnitude of gravitational field at Q due to thin hemispherical shell is given by
A)##I_0/2##...
I don't get the difference between these equations:
U = \dfrac{-Gm_1m_2}{r}
F_g = \dfrac{-Gm_1m_2}{r^2}
g = \dfrac{F_g}{m} = \dfrac{GM}{r^2} Also, why are the first two negative?
Here's my thinking:
The first equation is like U=mgh. Except it's when two masses are very far apart. It...
For a point mass acting as a source of a g field we draw lines that point inwards from infinity. Where we have an extended body like a planet, I've always drawn the field lines terminating on the surface. However, I've seen a question in an exam paper that implies that it's okay to continue...
"gravitational field strength"
Hi all,
I've been reading some lecture notes by G. t'Hooft, available from
http://www.staff.science.uu.nl/~hooft101/lectures/genrel_2010.pdf
On page 12, t'Hooft is discussing the Rindler space of an observer using co-ordinates \xi^{\mu} with constant...
If I throw a ball vertically upwards from the surface of the earth, the upward motion slows due to gravity. At the ball's highest point, I have placed a repositioned platform for the ball to rest on; so it sits motionless, perched above the surface of the earth. When the ball began it's...
Rusty on the math...
I am working on a problem and need the derivation of a free fall trajectory for an object at a distance above Earth where the change in acceleration is not negligible. How do I integrate the distance/ acceleration formula taking into account the change in g to get the...
In his paper, Chou et. al., 2010 has demonstrated that an atomic clock at the height of our head ticks faster than an atomic clock at the height of our feet.
I was thinking that one electromagnetic process can be substituted with any other - so that corresponding atoms in our head tick faster...
The gravitational field g due to a point mass M may be obtained by analogy with the electric field by writing an expression for the gravitational force on a test mass, and dividing by the magnitude of the test mass, m. Show that Gauss' law for the gravitational field reads:
phi = oint...
Homework Statement
Assume you are agile enough to run across a horizontal surface at 8.50 m/s, independently of the value of the gravitational field. What would be (a) the radius and (b) the mass of an airless spherical asteroid of uniform density 1.10 310 3kg/m3 on which you could launch...
Homework Statement
Dear all,
I have to find a fast way to compute changes in the level lines as the result of sudden changes in the local gravitational fields (2D space). (Caused by the destruction of a planet for example). I could recalculate everything but it takes too much time for the...
1) The problem statement :
For this problem, We use Newtonian Mechanics. We are placed in a geocentric frame of reference. An object (of which the mass is irrelevant for this problem) is released into the Earth's gravitational field at an altitude p(0) with no velocity whatsoever.
The...
A friend of mine posed the following conundrum: If you have 2 identical clocks one at the top and one at the bottom of a tower (on the earth), then for an observer at the top, the clock at the bottom appears to go more slowly than the clock next to him. This one can deduce from the redshift of...
1) The problem:
Mars orbits the Sun at a distance of 2.3 * 10^10 m with a speed of 24000 m/s. If it's speed were increased to 30000 m/s, at a time when no other planet was nearby, would Mars leave the Solar System.
2) Fc=Fg
Orbit formulas and such
3) I'm assuming you have to find the escape...
Homework Statement
A planet of mass 1.88x10^21 kg has a moon of mass 4.56^10^19 kg. The distance between their centers is 3.94x10^8 m. How far from the center of the planet (along the line joining the planet and the moon) is the net gravitational field strength, due to the two bodies, equal to...
Homework Statement
i have 2 questions on my holiday homework that I am not 100% sure on they are:
Homework Equations
1) write down an algebraic expression for g at a distance r from the centre of the planet. The planet can be treated as a point mass of magnitude M as its centre
AND
2) write...
Homework Statement
What happens to the gravitational field strength's magnitude if
a) r decreases by a factor of 4?
b) r increases by factor of 2
Homework Equations
i'm not sure which equation they are referring to? it may be g ∝ 1/r^2The Attempt at a Solution
I tried to do this:
1/ (r-4)^2...
hey there
MTW mention that the mass energy of the Earth moon system is less than the mass energy that the system would have if the 2 objects were at infinite separation.
MTW say that it is due to gravitational forces.
Please correct me if I'm wrong : The fact that the moon follows a...
Let me phrase the entire question: How is acceleration equivalent to rest in a gravitational field (without tidal effects)?
It's not that I am incapable understand the implications of this--it comes from a quote by DaleSpam and it seems to be rich--I just cannot break down the language he is...
Homework Statement
A 6.2*10^2-kg satellite above Earth's surface experiences a gravitational field strength of magnitude 4.5-N/kg. Knowing the gravitational field strength at Earth's surface and Earth's radius, how far above Earth's surface is the satellite? (Use ratio and proportion.)...
I have been reading various forums etc but can't find a clear explanation of how the space-time warping causes an object to accelerate/gain energy.
I don't want pseudo explanations about potential energy etc.
Thanks
Homework Statement
We have an ideal Bose gas in gravitational field. Show that the critical temperature( the temperature in which the condensation is starting is:
T_c = T^0_c( 1 + \frac{8}{9} \frac{1}{ζ(3/2)} (\frac{\pi mgh}{kT^0_c})^{1/2} )
Attempt
Lege artis; Firstly I want to...
I came across Tolman's paper on the equilibrium distribution of temperature in gravitational field. He argues that in contrast to classical thermodynamics situations, in gravitational field, a fluid in thermodynamic equilibrium will not have the same temperature everywhere (as measured by...
I'm sorry if this sounds confusing. But I'm writing this question exactly how it is written in my textbook. I am stumped on this problem: Find the potential function and gravitational field of the earth. Then use those equations to determine the work that must be done to get a 100kg satellite...
Hi,
I am trying to derive a formula for the path taken of a body in a Gravitational Field using Classical Mechanics.
I have attached a pdf file with my derivation so far. Basically I used conservation of energy and conservation of angular momentum to derive a diferential equation...
In General Relativity (GR), we have the _geodesic deviation equation_ (GDE)
$$\tag{1}\frac{D^2\xi^{\alpha}}{d\tau^2}=R^{\alpha}_{\beta\gamma\delta}\frac{dx^{\beta}}{d\tau}\xi^{\gamma}\frac{dx^{\delta}}{d\tau}, $$
see e.g...
Homework Statement
What is the strength of the gravitational field on the ground just above the oil deposit? Hint: Consider the missing mass as a sphere with a negative mass.
Given: a spherical oil deposit with radius 200m at a centre of depth 2.0km. The density of the Earth's crust is 2700...
Homework Statement
A mass at a point X gives rise to a gravitational field strength g at point P as shown. An identical mass is placed at point Y
x ________ p ______________________ y
The resultant g f s is now?
Homework Equations
g = Gm/r2
The Attempt at a Solution...