THIRSTYSCOOP.COM Thirsty Scoop website information. domain name is registered by .COM top-level domain registry. See the other sites registred in .COM domain zone.

No name server records were found.

According to Alexa traffic rank the highest website position was 106867 (in the world). The lowest Alexa rank position was 989958. Current position of in Alexa rank database is below 1 million.

Website Desktop speed measurement score (86/100) is better than the results of 82.23% of other sites and shows that the page is performing great on desktop computers.

Mobile usability score of is unknown.

Mobile speed of is unknown.

Weekly Rank Report

Aug-08-2022 N/AN/A
Aug-07-2022 N/AN/A
Aug-06-2022 N/AN/A
Aug-05-2022 N/AN/A
Aug-04-2022 N/AN/A
Aug-03-2022 N/AN/A
Aug-02-2022 N/AN/A

Advertisement Rank History

Alexa can identify the popularity of a website as well as its competitors. It is important for website owners and bloggers to know their Alexa ranking because it shows how many visitors have viewed their web page. It gives them a clear idea of how popular their website is on the internet and the ranking of their competitors. whois

WHOIS is a query and response protocol that is widely used for querying databases that store the registered users or assignees of an Internet resource, such as a domain name, an IP address block, or an autonomous system, but is also used for a wider range of other information.

Registry Domain ID: 2348961462_DOMAIN_COM-VRSN
Registrar WHOIS Server:
Registrar URL:
Updated Date: 2020-08-16T19:17:52Z
Creation Date: 2019-01-01T19:22:41Z
Registry Expiry Date: 2021-01-01T19:22:41Z
Registrar: Name Nelly, LLC
Registrar IANA ID: 755
Registrar Abuse Contact Email:
Registrar Abuse Contact Phone: +1.8003337680
Domain Status: clientTransferProhibited
DNSSEC: unsigned
URL of the ICANN Whois Inaccuracy Complaint Form:
>>> Last update of whois database: 2020-10-20T02:12:03Z server information

Servers Location

IP Address
City desktop page speed rank

Last tested: 2019-02-26

Desktop Speed Good
86/100 Desktop Speed Test Quick Summary

priority - 8 Leverage browser caching

Setting an expiry date or a maximum age in the HTTP headers for static resources instructs the browser to load previously downloaded resources from local disk rather than over the network.

Leverage browser caching for the following cacheable resources:…g/thirstyscooplogo.png (expiration not specified)…ed-image-2-400x240.png (expiration not specified)…7-1-e1495389647697.jpg (expiration not specified)…51087470_o-400x240.jpg (expiration not specified)…-Kitten-06-400x240.jpg (expiration not specified)…9.24.00-AM-400x240.png (expiration not specified)…iq-768x565-400x240.jpg (expiration not specified)…6642694-22-400x240.jpg (expiration not specified)…0.48.55-AM-400x240.png (expiration not specified)…2.12.33-PM-400x240.png (expiration not specified)…chive.com_-400x240.jpg (expiration not specified)…ebuzztube-400x240.jpeg (expiration not specified)…xpose.com_-400x240.jpg (expiration not specified) (20 minutes) (60 minutes) (2 hours) (4 hours) (8 hours)

priority - 4 Optimize images

Properly formatting and compressing images can save many bytes of data.

Optimize the following images to reduce their size by 37.8KiB (32% reduction).

Compressing and resizing…g/thirstyscooplogo.png could save 15.2KiB (69% reduction).
Compressing…7-1-e1495389647697.jpg could save 12.3KiB (24% reduction).
Compressing…iq-768x565-400x240.jpg could save 6.8KiB (33% reduction).
Compressing…51087470_o-400x240.jpg could save 3.4KiB (16% reduction).

priority - 2 Eliminate render-blocking JavaScript and CSS in above-the-fold content

Your page has 1 blocking CSS resources. This causes a delay in rendering your page.

None of the above-the-fold content on your page could be rendered without waiting for the following resources to load. Try to defer or asynchronously load blocking resources, or inline the critical portions of those resources directly in the HTML.

Optimize CSS Delivery of the following:…er_optin.css?ver=false

priority - 0 Minify JavaScript

Compacting JavaScript code can save many bytes of data and speed up downloading, parsing, and execution time.

Minify JavaScript for the following resources to reduce their size by 2.6KiB (33% reduction).

Minifying…y-sidebar.js?ver=1.6.2 could save 1.6KiB (49% reduction) after compression.
Minifying…s/scripts.js?ver=1.2.7 could save 710B (19% reduction) after compression.
Minifying…ouibounce.js?ver=4.9.4 could save 377B (29% reduction) after compression.

priority - 0 Minify CSS

Compacting CSS code can save many bytes of data and speed up download and parse times.

Minify CSS for the following resources to reduce their size by 2.5KiB (25% reduction).

Minifying…/normalize.css?ver=1.0 could save 1.3KiB (61% reduction) after compression.
Minifying…coop/style.css?ver=5.5 could save 1,012B (14% reduction) after compression.
Minifying…er_optin.css?ver=false could save 181B (21% reduction) after compression.

priority - 0 Minify HTML

Compacting HTML code, including any inline JavaScript and CSS contained in it, can save many bytes of data and speed up download and parse times.

Minify HTML for the following resources to reduce their size by 1.5KiB (14% reduction).

Minifying could save 1.5KiB (14% reduction) after compression. Desktop Resources

Total Resources56
Number of Hosts15
Static Resources23
JavaScript Resources23
CSS Resources6 Desktop Resource Breakdown mobile page speed rank mobile page usability similar domains

Similar domains:
www.thirstyscoop.con Ping

Ping is a networking utility tool to test if a particular host is reachable. It is a diagnostic that checks reachability of a host on an Internet Protocol (IP) network. In a computer network, a ping test is a way of sending messages from one host to another. Aside from checking if the host is connected to a network, ping also gives indicators of the reliability and general speed of the connection. TRACEROUTE

Traceroute is a network diagnostic tool used to track the pathway taken by a packet on an IP network from source to destination. Traceroute also records the time taken for each hop the packet makes during its route to the destination. Traceroute uses ICMP (Internet Control Message Protocol) echo packets with variable time to live values. The response time of each hop is calculated. To guarantee accuracy, each hop is queried multiple times (usually three times) to better measure the response of that particular hop.