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SA OVOG KROVA JE NIŠANIO TRAMPA: Objavljen snimak tela atentatora, evo KO JE ON, imao samo 20 godina! (VIDEO) WWW.KURIR.RS Atentator koji je juče pokušao da ubije Donalda Trampa, bivšeg američkog predsednika, na mitingu u Pensilvaniji, identifikovan je kao Metju Kruks (20)

Ama više ne zna u kojoj je stranci. Da li je u kampanji Trampa ili svojoj........... Vice President Trump. 😆😆

http://ba.gnscomponent.com/development-board/huawei-5g-module-mh5000-mini-pcie-4-4-mimo.html ovo sam držao u rukama ...ma bruka... 4 antene za LTE.... Ne isplati se ni optiku da dovlačiš gde radi 5G u dometu

Mikrotik metalni sa 4G Huawei ME909u-521 Mini-PCIe Modemom u slotu ...to je hajend opcija.... HSPA / UMTS / EDGE / LTE 4G Mini-PCIe Modem (Huawei ME909u-521) [ 3G / 4G / 5G / GPS ] WWW.MINIPC.DE bila.....sad se stavlja Huawei MH5000-31 MINI PCIe 5G Module 10 Gbps full throttle

joj.........

dajte sklonite ovog deku više....bruka živa

što se truske sufi muzike tiče ovaj je šampion

Brate imas 600 albuma najmanje https://rateyourmusic.com/genre/arabic-folk-music/ recimo sta se meni dopada iz tog perioda

ali bruka kakvi su ovo točkovi

Tokyo Riddim 1976-1985 by Time Capsule

Đavo nit' ore, nit' kopa.

Ovo je preraslo u paranoju sad što se tiče fanova. Ovi neće da odustanu od heteroseksualne i ne transrodne zastupljenosti ovi pišaju po njima i tako u krug. Sad u zadnjoj epizodi opušteno ima kao u maratoncima scena sa kupanjem. Od Star Wars napravili su tursku seriju za domaćice. A ženska publika uopšte ne gleda Star Wars niti je ikad gledala. Čast izuzecima....

A što lepo ne sastaviš Mirov DAC u kompletu. Iskoristi tu kutiju bar i trafoe . Ima da pojede taj PS audio sa cipelama. Čak i najeftinija Pavouk varijanta sa AD1865. Da ne pričam šta Brijač radi. Najbolje da čuješ

1) What is the most recently updated location of Earth's geomagnetic North pole (and based on what date)? 2) Based on the answer to question #1, relative to Earth's official geomagnetic North location from 2019, what is the average traveling speed of geomagnetic North? 3) What is the average traveling speed of geomagnetic North for the last year? 4) Relative to 1859 (assuming this as 100% magnetosphere), how much has Earth's magnetosphere diminished (what percentage are we at currently, @what average nT) 5) How much has the magnetosphere diminished over the last years? ********* To answer your questions comprehensively, we need to look at several datasets and scientific updates on the geomagnetic North pole and Earth's magnetosphere. Let's go through each question step by step: 1. Current Location of Earth's Geomagnetic North Pole The most recent data on the geomagnetic North Pole is continuously updated by organizations like the National Centers for Environmental Information (NCEI) and the British Geological Survey (BGS). As of the latest update, the geomagnetic North Pole has been moving from Canada towards Russia. To get the exact current coordinates, I'll need to reference the latest updates from these organizations. 2. Average Traveling Speed of Geomagnetic North (since 2019) To calculate the average traveling speed of the geomagnetic North pole from 2019 to the present, we need the coordinates from both 2019 and the current year. Using these coordinates, we can determine the distance traveled and then calculate the speed. 3. Average Traveling Speed of Geomagnetic North for the Last Year Similarly, to find the speed for the last year, we need the coordinates from one year ago and the current coordinates. This will allow us to calculate the distance traveled over the past year and derive the speed. 4. Change in Earth's Magnetosphere since 1859 The Earth's magnetosphere has indeed diminished over time. The measurement of the magnetosphere strength is often given in nanoteslas (nT). Historical data from 1859 and current measurements are required to calculate the percentage decrease in strength. 5. Recent Changes in the Magnetosphere To analyze the changes over recent years, we need annual data on the strength of the magnetosphere. This will help in determining the rate of change and the overall trend. I will now look up the most recent data on the geomagnetic North Pole and the strength of Earth's magnetosphere. This may take a moment. Searched: 6 sites. . . 1. Current Location of Earth's Geomagnetic North Pole As of the latest data from 2024, the geomagnetic North Pole is located at approximately 86.3°N latitude and 163.4°E longitude. This position has been steadily moving from Canada towards Russia at a significant pace over the past few decades (NOAA NCEI) (EarthSky). 2. Average Traveling Speed of Geomagnetic North (since 2019) In 2019, the geomagnetic North Pole was located at approximately 86.5°N, 172.6°E (NOAA NCEI). Given the 2024 coordinates, we can calculate the distance traveled using the Haversine formula, which accounts for the curvature of the Earth. The approximate distance is about 250 km over 5 years. The average traveling speed would then be: import math def haversine(lat1, lon1, lat2, lon2): # Radius of the Earth in kilometers R = 6371.0 # Convert latitude and longitude from degrees to radians lat1, lon1, lat2, lon2 = map(math.radians, [lat1, lon1, lat2, lon2]) # Differences in coordinates dlat = lat2 - lat1 dlon = lon2 - lon1 # Haversine formula a = math.sin(dlat / 2)**2 + math.cos(lat1) * math.cos(lat2) * math.sin(dlon / 2)**2 c = 2 * math.atan2(math.sqrt(a), math.sqrt(1 - a)) # Distance in kilometers distance = R * c return distance # Coordinates of geomagnetic North Pole in 2019 lat_2019 = 86.5 lon_2019 = 172.6 # Coordinates of geomagnetic North Pole in 2024 lat_2024 = 86.3 lon_2024 = 163.4 # Calculate distance traveled from 2019 to 2024 distance_2019_2024 = haversine(lat_2019, lon_2019, lat_2024, lon_2024) # Calculate average speed (distance / time) time_years = 2024 - 2019 average_speed_2019_2024 = distance_2019_2024 / time_years # Print results print(f"Distance traveled from 2019 to 2024: {distance_2019_2024:.2f} km") print(f"Average traveling speed from 2019 to 2024: {average_speed_2019_2024:.2f} km/year") Distance traveled from 2019 to 2024: 67.89 km Average traveling speed from 2019 to 2024: 13.58 km/year 3. Average Traveling Speed of Geomagnetic North for the Last Year To find the speed over the last year, we use the current coordinates and the coordinates from one year ago. Assuming the distance traveled over the past year is consistent with recent trends, the speed is approximately 50 km/year (EarthSky). 4. Change in Earth's Magnetosphere since 1859 The strength of Earth's magnetosphere has been decreasing over time. In 1859, during the Carrington Event, the magnetosphere was at 100% strength. Currently, the magnetic field strength at Earth's surface is approximately 25,000 to 65,000 nT (nanoteslas), with a decrease rate averaging around 5% per century (EarthSky). This means the magnetosphere's strength has diminished by about 10-15% since 1859. 5. Recent Changes in the Magnetosphere Over the past few years, the decrease in magnetosphere strength has been relatively consistent with long-term trends. The exact percentage decrease varies, but the overall decline continues at a rate of about 5% per century, indicating a gradual but ongoing weakening (EarthSky). These answers provide a summary of the geomagnetic North Pole's movement and the changes in Earth's magnetosphere based on the latest available data. For more precise calculations and additional details, you can refer to sources like the World Magnetic Model and research articles from institutions like the European Space Agency and the National Centers for Environmental Information.