Funtrackers Family Fun Center Corpus Christi TX
Funtrackers Family Fun Center Corpus Christi TX
Kids Activities, Family Fun Center, Fun for Kids, Family Activities, Miniature Golf,, Batting Cages, Café, Amusement Park Rides, Birthday Parties, Group Events, Bumper Cars, Bumper Boats, Go Carts, Huge Arcade, Party Packages, Fundraising
Installing a timing belt and setting pump timing on an AAZ, Similar to an AHU, 1.6d, and 1.6td
This is part of our ongoing 1.9td AAZ Caddy swap and in this video we cover making sure everything is in time and installing a timing belt as well as setting the pump timing.
Metalnerd tools used in the video can be found here.
How to Use a Metal Detector to Uncover Hidden Bounty
Watch more How to Have Fun at the Beach videos:
Think buried treasure is only for pirates and archaeologists? Think again.
Step 1: Practice using the detector
Get acquainted with the device by burying metal objects and running the detector over them. If you have a more sophisticated metal detector, take note of the different sounds it makes depending on the object it's detecting.
Step 2: Search the best locations
Search online or at the library for locations like popular recreation sites and areas where historical events occurred to up your chances of uncovering something great.
Tip
If you're searching private property, get the owner's permission. Contact local authorities before searching national parks or monuments.
Step 3: Start detecting
Start in one corner of the area you're searching. Hold the detector in front of you and walk slowly and deliberately in a straight line to the other end of the area, keeping the detector's coils at a consistent distance from the ground and parallel to it. Make a methodical back and forth sweep of the area, like mowing a lawn.
Step 4: Pinpoint your treasure
When you pick up a signal, run the detector over a 2 square foot area around where the signal occurred. Listen for where the signal is loudest and gently drive a probe into the ground until you feel the object.
Tip
Use an electronic probe to save time and effort.
Step 5: Excavate your find
Dig up your find with a spade, being careful not to damage it during excavation. Then, refill the hole and tamp down the dirt. If you think you've found something worth keeping, store it in your backpack. If it's trash, put it in your trash bag for proper disposal later.
Tip
Never clean a find until a specialist has looked at it and given the okay.
Step 6: Get an expert to examine it
Take potentially valuable finds to an antique or coin dealer to assess their worth.
Step 7: Practice
Practice. Stay alert, enjoy your time in the great outdoors, and keep your fingers crossed for the next big find!
Did You Know?
In 2009 British metal detectorist Terry Herbert found a 1,300 year old hoard of Anglo-Saxon treasure worth millions of dollars in a farmer's field.
Space debris mitigation | Wikipedia audio article
This is an audio version of the Wikipedia Article:
00:03:06 1 Characterization
00:03:15 1.1 Size
00:04:29 1.2 Low Earth orbit (LEO)
00:06:19 1.3 Higher altitudes
00:09:17 2 Sources
00:09:26 2.1 Dead spacecraft
00:11:31 2.2 Lost equipment
00:12:24 2.3 Boosters
00:14:34 2.4 Weapons
00:18:13 3 Threats
00:18:21 3.1 To spacecraft
00:18:41 3.1.1 Unmanned spacecraft
00:22:46 3.1.2 Manned spacecraft
00:22:55 3.1.2.1 Space Shuttle missions
00:25:38 3.1.2.2 Mir
00:25:56 3.1.2.3 International Space Station
00:27:23 3.1.3 Kessler syndrome
00:28:21 3.2 To Earth
00:31:49 4 Tracking and measurement
00:31:58 4.1 Tracking from the ground
00:33:26 4.2 Measurement in space
00:34:35 4.3 Gabbard diagrams
00:35:18 5 Dealing with debris
00:36:52 5.1 Growth mitigation
00:39:52 5.2 Self-removal
00:41:13 5.3 External removal
00:42:27 5.3.1 Remotely controlled vehicles
00:44:59 5.3.2 Laser methods
00:47:13 5.3.3 Nets
00:48:36 5.3.4 Harpoon
00:49:09 5.4 International regulation
00:49:33 6 History and shielding technologies
00:49:43 6.1 Micrometeoroids
00:52:05 6.2 Micrometeoroid shielding
00:54:11 6.3 NORAD, Gabbard and Kessler
00:57:26 6.4 Follow-up studies
01:00:20 6.5 A new Kessler syndrome
01:03:21 6.6 Debris growth
01:07:26 7 In popular culture
01:08:48 8 See also
Listening is a more natural way of learning, when compared to reading. Written language only began at around 3200 BC, but spoken language has existed long ago.
Learning by listening is a great way to:
- increases imagination and understanding
- improves your listening skills
- improves your own spoken accent
- learn while on the move
- reduce eye strain
Now learn the vast amount of general knowledge available on Wikipedia through audio (audio article). You could even learn subconsciously by playing the audio while you are sleeping! If you are planning to listen a lot, you could try using a bone conduction headphone, or a standard speaker instead of an earphone.
Listen on Google Assistant through Extra Audio:
Other Wikipedia audio articles at:
Upload your own Wikipedia articles through:
Speaking Rate: 0.8783434032598217
Voice name: en-AU-Wavenet-A
I cannot teach anybody anything, I can only make them think.
- Socrates
SUMMARY
=======
Initially, the term space debris referred to the natural debris found in the solar system: asteroids, comets, and meteoroids. However, with the 1979 beginning of the NASA Orbital Debris Program, the term also refers to the debris (alt. space waste or space garbage) from the mass of defunct, artificially created objects in space, especially Earth orbit. These include old satellites and spent rocket stages, as well as the fragments from their disintegration and collisions.
As of December 2016, five satellite collisions have generated space debris. Space debris is also known as orbital debris, space junk, space waste, space trash, space litter or space garbage.As of 5 July 2016, the United States Strategic Command tracked a total of 17,852 artificial objects in orbit above the Earth, including 1,419 operational satellites. However, these are just objects large enough to be tracked. As of January 2019, more than 128 million bits of debris smaller than 1 cm (0.4 in), about 900,000 pieces of debris 1–10 cm, and around 34,000 of pieces larger than 10 cm were estimated to be in orbit around the Earth. Collisions with debris have become a hazard to spacecraft; they cause damage akin to sandblasting, especially to solar panels and optics like telescopes or star trackers that cannot be covered with a ballistic Whipple shield (unless it is transparent).Below 2,000 km (1,200 mi) Earth-altitude, pieces of debris are denser than meteoroids; most are dust from solid rocket motors, surface erosion debris like paint flakes, and frozen coolant from RORSAT (nuclear-powered satellites).
For comparison, the International Space Station orbits in the 300–400 kilometres (190–250 mi) range, and the 2009 satellite collision and 2007 antisat test occurred at 800 to 900 kilometres (500 to 560 mi) altitude. The ISS has Whipple shielding; however, known debris with a collision chance over 1/10,000 are avoided by maneuvering the station.
The Kessler syndrome, a runaway chain reaction of collisions exponentially increasing the amount of debris, has been hypothesized to ensue beyond a critical density. This could affect useful polar-orbiting bands, increases the cost of protection for spacecraft missions and could destroy live satellites. Whether Kessler syndrome is already underway has been debated. The measurement, mitigation, and potential removal of debris are conducted by some participants in the space industry.