astro: 2019 QR6 and 2019 PR2

On October 06th, 2019 I post a message on MPML list wondering about the nature of these two objects.

In fact that I was unable to link their orbits with Find_Orb.

The message was almost immediately answered by Bill Gray that already noticed the orbit similarity as you see in his answer.

For what is's worth, I tried a simulation going back just a few centuries.

I used the Mercury6 simulator (Bulirsch-Stoer algorithm, output every 100 days) to integrate the orbit of 100 clones for every Amor.

package by J.E.Chambers (1999) ``A Hybrid
      Symplectic Integrator that Permits Close Encounters between
      Massive Bodies''. Monthly Notices of the Royal Astronomical
      Society, vol 304, pp793-799.

[ show orbit diagram ]

Orbital Elements at Epoch 2458600.5 (2019-Apr-27.0) TDB
Reference: JPL 6 (heliocentric ecliptic J2000)

Element	Value	Uncertainty (1-sigma)	Units
e	.7978288096308341	0.00032564
a	5.77647017220784	0.0096039	au
q	1.16783585084724	6.0685e-05	au
i	10.97219839923067	0.0022769	deg
node	349.0031380596452	0.0032242	deg
peri	57.11459122817678	0.0037867	deg
M	347.1017843073122	0.032425	deg
t_p	2458782.185121653621 (2019-Oct-25.68512165)	0.0037127	TDB
period	5070.983875109436 13.88	12.646 0.03462	d yr
n	.07099214055225742	0.00017705	deg/d
Q	10.38510449356844	0.017266	au

Orbit Determination Parameters

# obs. used (total)	55
data-arc span	37 days
first obs. used	2019-08-30
last obs. used	2019-10-06
planetary ephem.	DE431
SB-pert. ephem.	SB431-N16
condition code	6
norm. resid. RMS	.23771
source	ORB
producer	Otto Matic
solution date	2019-Oct-06 05:59:04

Additional Information

Earth MOID = .236027 au

Jupiter MOID = .430677 au

T_jup = 2.148

(2019 QR6)

Classification: Amor [NEO] SPK-ID: 3843716

[ show orbit diagram ]

Orbital Elements at Epoch 2458600.5 (2019-Apr-27.0) TDB
Reference: JPL 13 (heliocentric ecliptic J2000)

Element	Value	Uncertainty (1-sigma)	Units
e	.7976395056810581	7.5679e-05
a	5.771314015088342	0.0022317	au
q	1.167885956963114	1.4922e-05	au
i	10.98927716153723	0.0004847	deg
node	349.0377844945419	0.00064504	deg
peri	57.08297761694006	0.0010614	deg
M	347.0982101299367	0.0075621	deg
t_p	2458781.992192675281 (2019-Oct-25.49219268)	0.0011319	TDB
period	5064.195745018806 13.87	2.9374 0.008042	d yr
n	.0710872995685642	4.1233e-05	deg/d
Q	10.37474207321357	0.0040118	au

Orbit Determination Parameters

# obs. used (total)	79
data-arc span	56 days
first obs. used	2019-08-10
last obs. used	2019-10-05
planetary ephem.	DE431
SB-pert. ephem.	SB431-N16
condition code	5
norm. resid. RMS	.47936
source	ORB
producer	Otto Matic
solution date	2019-Oct-06 05:59:04

Additional Information

Earth MOID = .236151 au

Jupiter MOID = .430922 au

T_jup = 2.149

(2019 PR2)

Classification: Amor [NEO] SPK-ID: 3843547

I generated the clones trying to achieve the same orbital values as above.
This is what I got:

2019 QR6

	Clones		Target
	mean	sd	mean	sd
q	1.16782936	6.072e-05	1.16783585	6.068e-05
e	0.7977961	0.00032594	0.79782881	0.00032564
i	10.97196669	0.00227869	10.9721984	0.0022769
peri	57.11505214	0.00378487	57.11459123	0.0037867
node	349.00281358	0.00322763	349.00313806	0.0032242
tp	2458782.18556559	0.00370968	2458782.18512165	0.0037127

2019 PR2

	Clones		Target
	mean	sd	mean	sd
q	1.16788572	1.491e-05	1.16788596	1.492e-05
e	0.79763725	7.562e-05	0.79763951	7.568e-05
i	10.98925764	0.00048534	10.98927716	0.0004847
peri	57.08297444	0.00106018	57.08297762	0.0010614
node	349.03776263	0.00064461	349.03778449	0.00064504
tp	2458781.99219263	0.00113238	2458781.99219268	0.0011319

I analyzed the 100*100 pairs, looking for pairs being very near with low relative velocity.

The best couple that I found behaved like this:

Apparently, somewhere around year 1950 these two asteroids were at 2500 km with a relative velocity abot 10 m/s.

Does this make any sense?

Kind Regards
Alessandro Odasso

astro

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Sunday, October 6, 2019

Amors: (2019 QR6) and (2019 PR2)