Access the world's leading financial data and tools
Subscribe for $2 Israel Manufacturing Production Month-over-Month (MoM)
Price
The current value of the Manufacturing Production Month-over-Month (MoM) in Israel is 3.4 %. The Manufacturing Production Month-over-Month (MoM) in Israel increased to 3.4 % on 1/1/2024, after it was 1.2 % on 11/1/2023. From 2/1/2004 to 4/1/2024, the average GDP in Israel was 0.26 %. The all-time high was reached on 8/1/2009 with 7.6 %, while the lowest value was recorded on 3/1/2020 with -8.5 %.
Manufacturing Production Month-over-Month (MoM) ·
3 years
5 years
10 years
25 Years
Max
Manufacturing Production MoM | |
---|---|
3/1/2004 | 2 % |
6/1/2004 | 1.8 % |
8/1/2004 | 2.2 % |
10/1/2004 | 5.1 % |
1/1/2005 | 5.2 % |
4/1/2005 | 2.5 % |
7/1/2005 | 0.1 % |
8/1/2005 | 0.4 % |
9/1/2005 | 0.6 % |
10/1/2005 | 0.1 % |
11/1/2005 | 2.3 % |
2/1/2006 | 1.9 % |
5/1/2006 | 2.3 % |
6/1/2006 | 2.4 % |
8/1/2006 | 2.9 % |
9/1/2006 | 0.5 % |
10/1/2006 | 1.2 % |
11/1/2006 | 3.1 % |
2/1/2007 | 0.6 % |
3/1/2007 | 2.1 % |
5/1/2007 | 2.4 % |
7/1/2007 | 2.7 % |
9/1/2007 | 2.7 % |
11/1/2007 | 1.4 % |
12/1/2007 | 0.2 % |
1/1/2008 | 2.6 % |
3/1/2008 | 3.9 % |
6/1/2008 | 4.1 % |
8/1/2008 | 0.9 % |
10/1/2008 | 3 % |
12/1/2008 | 0.8 % |
4/1/2009 | 1.2 % |
6/1/2009 | 2.6 % |
8/1/2009 | 7.6 % |
9/1/2009 | 0.7 % |
10/1/2009 | 2.5 % |
1/1/2010 | 6.2 % |
3/1/2010 | 2.1 % |
4/1/2010 | 3.1 % |
5/1/2010 | 0.9 % |
6/1/2010 | 0.4 % |
7/1/2010 | 1 % |
10/1/2010 | 1.4 % |
12/1/2010 | 1.2 % |
1/1/2011 | 7.4 % |
3/1/2011 | 2.1 % |
7/1/2011 | 1.2 % |
9/1/2011 | 2.7 % |
12/1/2011 | 0.9 % |
1/1/2012 | 3 % |
3/1/2012 | 5.9 % |
4/1/2012 | 3.1 % |
7/1/2012 | 3.9 % |
8/1/2012 | 0.6 % |
1/1/2013 | 2 % |
2/1/2013 | 2.2 % |
4/1/2013 | 0.9 % |
6/1/2013 | 1 % |
7/1/2013 | 0.8 % |
9/1/2013 | 3.4 % |
10/1/2013 | 0.6 % |
11/1/2013 | 1 % |
1/1/2014 | 0.3 % |
2/1/2014 | 3.6 % |
5/1/2014 | 3.9 % |
7/1/2014 | 0.6 % |
8/1/2014 | 1.8 % |
9/1/2014 | 3.8 % |
2/1/2015 | 1.6 % |
6/1/2015 | 2.8 % |
8/1/2015 | 2.8 % |
11/1/2015 | 6.7 % |
3/1/2016 | 3 % |
5/1/2016 | 0.2 % |
11/1/2016 | 4 % |
1/1/2017 | 0.4 % |
3/1/2017 | 4 % |
4/1/2017 | 0.8 % |
6/1/2017 | 1 % |
10/1/2017 | 2.1 % |
11/1/2017 | 0.7 % |
1/1/2018 | 1.8 % |
4/1/2018 | 0.2 % |
5/1/2018 | 0.7 % |
7/1/2018 | 2.6 % |
8/1/2018 | 2.1 % |
12/1/2018 | 1.8 % |
1/1/2019 | 1.8 % |
3/1/2019 | 0.5 % |
4/1/2019 | 1.9 % |
7/1/2019 | 4.5 % |
9/1/2019 | 1.4 % |
10/1/2019 | 3.8 % |
12/1/2019 | 0.1 % |
5/1/2020 | 4.2 % |
6/1/2020 | 6.8 % |
8/1/2020 | 3.2 % |
9/1/2020 | 0.6 % |
11/1/2020 | 0.2 % |
3/1/2021 | 5.5 % |
6/1/2021 | 5.2 % |
9/1/2021 | 1.4 % |
10/1/2021 | 1.9 % |
12/1/2021 | 6.1 % |
1/1/2022 | 3.4 % |
4/1/2022 | 0.3 % |
5/1/2022 | 2.9 % |
6/1/2022 | 1.5 % |
8/1/2022 | 2.9 % |
9/1/2022 | 0.4 % |
11/1/2022 | 3.7 % |
12/1/2022 | 1 % |
2/1/2023 | 2.1 % |
7/1/2023 | 1.7 % |
8/1/2023 | 4.1 % |
11/1/2023 | 1.2 % |
1/1/2024 | 3.4 % |
Manufacturing Production Month-over-Month (MoM) History
Date | Value |
---|---|
1/1/2024 | 3.4 % |
11/1/2023 | 1.2 % |
8/1/2023 | 4.1 % |
7/1/2023 | 1.7 % |
2/1/2023 | 2.1 % |
12/1/2022 | 1 % |
11/1/2022 | 3.7 % |
9/1/2022 | 0.4 % |
8/1/2022 | 2.9 % |
6/1/2022 | 1.5 % |
Similar Macro Indicators to Manufacturing Production Month-over-Month (MoM)
Name | Current | Previous | Frequency |
---|---|---|---|
🇮🇱 Business Climate | 17.33 points | 15.7 points | Monthly |
🇮🇱 Changes in Inventory Levels | 3.727 B ILS | 8.565 B ILS | Quarter |
🇮🇱 Industrial production | 3.2 % | -11.1 % | Monthly |
🇮🇱 Industrial Production MoM | -14.4 % | 8.2 % | Monthly |
🇮🇱 Leading Indicator | 0.04 % | -0.08 % | Monthly |
🇮🇱 Manufacturing PMI | 52.9 points | 50.9 points | Monthly |
🇮🇱 Manufacturing Production | -11.7 % | -8.45 % | Monthly |
🇮🇱 Mining Production | 8 % | -5.05 % | Monthly |
Macro pages for other countries in Asia
- 🇨🇳China
- 🇮🇳India
- 🇮🇩Indonesia
- 🇯🇵Japan
- 🇸🇦Saudi Arabia
- 🇸🇬Singapore
- 🇰🇷South Korea
- 🇹🇷Turkey
- 🇦🇫Afghanistan
- 🇦🇲Armenia
- 🇦🇿Azerbaijan
- 🇧🇭Bahrain
- 🇧🇩Bangladesh
- 🇧🇹Bhutan
- 🇧🇳Brunei
- 🇰🇭Cambodia
- 🇹🇱East Timor
- 🇬🇪Georgia
- 🇭🇰Hong Kong
- 🇮🇷Iran
- 🇮🇶Iraq
- 🇯🇴Jordan
- 🇰🇿Kazakhstan
- 🇰🇼Kuwait
- 🇰🇬Kyrgyzstan
- 🇱🇦Laos
- 🇱🇧Lebanon
- 🇲🇴Macau
- 🇲🇾Malaysia
- 🇲🇻Maldives
- 🇲🇳Mongolia
- 🇲🇲Myanmar
- 🇳🇵Nepal
- 🇰🇵North Korea
- 🇴🇲Oman
- 🇵🇰Pakistan
- 🇵🇸Palestine
- 🇵🇭Philippines
- 🇶🇦Qatar
- 🇱🇰Sri Lanka
- 🇸🇾Syria
- 🇹🇼Taiwan
- 🇹🇯Tajikistan
- 🇹🇭Thailand
- 🇹🇲Turkmenistan
- 🇦🇪United Arab Emirates
- 🇺🇿Uzbekistan
- 🇻🇳Vietnam
- 🇾🇪Yemen
What is Manufacturing Production Month-over-Month (MoM)?
Manufacturing Production MoM (Month-over-Month) is an essential macroeconomic indicator that provides critical insights into the health and direction of an economy. At eulerpool, we recognize the significance of accurately capturing and displaying such data, as it enables economists, analysts, and business leaders to make informed decisions. This metric tracks the percentage change in the volume of output produced by the manufacturing sector from one month to the next. By analyzing this data, stakeholders can better understand the short-term trends and cyclical patterns that drive economic growth. Manufacturing Production MoM data can reflect underlying economic conditions. A positive change indicates an increase in manufacturing output, which often correlates with higher consumer demand, business investment, and overall economic expansion. Conversely, a negative change suggests a reduction in production, hinting at potential economic contraction, reduced consumer spending, or disruptions within the supply chain. For industries reliant on manufacturing, these fluctuations are pivotal indicators of future performance and planning requirements. At eulerpool, we meticulously compile and present Manufacturing Production MoM data from a variety of sources to ensure our users receive the most accurate and current information. We understand that even minute deviations in manufacturing output can have broad implications, influencing stock prices, currency valuations, and policy decisions by central banks. Our platform offers detailed historical data analyses in this category, allowing users to trace patterns, compare performance over time, and draw connections between external events and manufacturing trends. One can view Manufacturing Production MoM as a pulse check on the manufacturing sector's vitality. The manufacturing sector is a cornerstone of many economies, responsible for producing goods that range from raw materials to complex consumer products. It integrates into a broader supply chain that spans multiple sectors and regions, making the health of manufacturing a significant barometer for global economic stability. In economic terms, sustainable growth in manufacturing production is often an indicator of a robust economy. Enhanced output can lead to job creation, improved wages, and increased consumer spending, ultimately fostering a virtuous cycle of growth and prosperity. Hence, a positive MoM shift in manufacturing production can give a boost to investor confidence and drive upward movements in stock markets, particularly in equities related to the industrial and manufacturing sectors. Nonetheless, the interpretation of Manufacturing Production MoM data requires consideration of several additional factors. Seasonal adjustments are regularly applied to this data to eliminate the effects of seasonal variations and provide a clearer picture of the underlying trend. Moreover, one must consider potential external shocks or anomalies, such as natural disasters, geopolitical events, or significant policy changes, that could temporarily influence production levels. Economists and analysts often juxtapose Manufacturing Production MoM data with other economic indicators to develop comprehensive predictions and strategies. Variables such as employment rates, capacity utilization, orders for durable goods, and business confidence indices are all relevant in forming a holistic view of the economic landscape. The interplay between these various indicators can offer deeper insights, unveiling the underlying dynamics of the economy. Manufacturing sectors vary significantly from country to country, influenced by factors such as resource availability, technological advancements, labor market conditions, and government policies. For instance, in highly industrialized nations, advanced manufacturing techniques and automation play a critical role in driving production efficiency and output levels. In contrast, emerging economies may rely more heavily on labor-intensive manufacturing, facing different sets of challenges and opportunities. At eulerpool, our extensive database encompasses a wide array of international data, ensuring that users have access to a nuanced view of global manufacturing production. Another aspect to consider is the long-term trends in the manufacturing sector. While month-over-month data offers valuable immediate insights, evaluating longer-term trends can reveal shifts in industrial strategies, innovation adoption, and resilience to economic shifts. For instance, shifts towards sustainable and green manufacturing practices are becoming increasingly prominent, influenced by regulatory pressures and market demand for eco-friendly products. Understanding these evolving trends is vital for stakeholders aiming to stay ahead in the competitive landscape. Government policies and economic stimuli also play pivotal roles in shaping manufacturing production. Substantial investments in infrastructure, tax incentives, and subsidies for research and development can boost manufacturing output. Conversely, restrictive trade policies, high tariffs, or stringent regulatory frameworks can hinder production. At eulerpool, we ensure to complement our data with relevant economic policy analysis, offering context that enhances the interpretability of our manufacturing production figures. Moreover, technological innovation is a key driver of changes in Manufacturing Production MoM. The Fourth Industrial Revolution, characterized by advancements in automation, artificial intelligence, the Internet of Things (IoT), and cybersecurity, is transforming manufacturing processes. These technologies enhance production efficiency, reduce costs, and enable more robust quality controls, ultimately impacting the production figures. Our platform at eulerpool not only captures these immediate changes in production levels but also provides insights into the broader technological trends influencing the sector. Global supply chain dynamics have far-reaching effects on manufacturing production. Events such as the COVID-19 pandemic have underscored the fragility and interconnectedness of global supply chains. Disruptions in supply chains can lead to significant fluctuations in manufacturing output as companies navigate shortages in raw materials or challenges in logistical operations. At eulerpool, our data presentations consider these global narratives, offering a detailed perspective on how such disruptions reflect in the month-over-month production data. In conclusion, Manufacturing Production MoM is a critical component of macroeconomic analysis. Its implications span beyond immediate production changes, influencing economic policies, investment strategies, and market sentiments. At eulerpool, our commitment to providing comprehensive and accurate data ensures that our users grasp the nuanced dynamics of this important metric. By integrating Manufacturing Production MoM data with broader economic variables and contextual analysis, we enable stakeholders to make well-informed decisions that drive long-term economic prosperity and industrial growth.