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Commerce Minister Calls for Small Business to Formalize Operations

By on October 24, 2019

first_imgStory Highlights The policy is about “applying resources in a manner that is designed to have the real impact” on business growth and development. Minister of Industry, Investment, and Commerce, Hon. Anthony Hylton, has called on small business owners to formalize their operations to benefit from offerings under the new Micro, Small and Medium Enterprise (MSME) Entrepreneurship Policy.The Minister was addressing a recent Think Tank held at the Jamaica Information Service (JIS) head office in Kingston.He noted that the policy is not about “finding a way to give more money”, but “applying resources in a manner that is designed to have the real impact” on business growth and development.As such, he said, persons will benefit from training and guidance in areas such as product development, marketing, and incentives such as tax breaks during the infancy stage of the business.“Before you go to the bank and start asking for money, what you need is some training, exposure, and critical intervention from entities like the DBJ (Development of Bank of Jamaica) and others, who can intervene and talk to you about the feasibility of your business, marketing, and product differentiation,” Minister Hylton said.The MSME Policy seeks to implement a structured and sustainable programme to provide training to MSMEs through public-private partnerships in key areas such as: business planning, cash flow projections, management, book-keeping, inventory management, protection of intellectual property, standards, and market penetration. Small business owners urged to formalize their operations to benefit from offerings under the new MSME Entrepreneurship Policy. The MSME Policy seeks to implement a structured and sustainable programme to provide training to MSMEs.last_img read more

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Shape shifting liquid metal able to propel itself through liquids w video

By on August 31, 2019

first_img(Phys.org)—A team of researchers at Tsinghua University in China has, according to a report in Newscientist, found a way to mimic, if only in a small way, the shape shifting robot in the Terminator movies. The team has published their findings in the journal Advanced Materials. This document is subject to copyright. Apart from any fair dealing for the purpose of private study or research, no part may be reproduced without the written permission. The content is provided for information purposes only. PausePlay% buffered00:0000:00UnmuteMuteDisable captionsEnable captionsSettingsCaptionsDisabledQuality0SpeedNormalCaptionsGo back to previous menuQualityGo back to previous menuSpeedGo back to previous menu0.5×0.75×Normal1.25×1.5×1.75×2×Exit fullscreenEnter fullscreen Citation: Shape shifting liquid metal able to propel itself through liquids (w/ video) (2015, March 11) retrieved 18 August 2019 from https://phys.org/news/2015-03-shifting-liquid-metal-propel-liquids.html PausePlay% buffered00:0000:00UnmuteMuteDisable captionsEnable captionsSettingsCaptionsDisabledQuality0SpeedNormalCaptionsGo back to previous menuQualityGo back to previous menuSpeedGo back to previous menu0.5×0.75×Normal1.25×1.5×1.75×2×Exit fullscreenEnter fullscreen Researchers develop a way to cause static self-assembly using magnets and ferrofluids © 2015 Phys.org Play Credit: Advanced Materials, Article first published online: 3 MAR 2015. DOI: 10.1002/adma.201405438 More information: Self-Fueled Biomimetic Liquid Metal Mollusk, Advanced Materials, Article first published online: 3 MAR 2015. DOI: 10.1002/adma.201405438AbstractA liquid metal motor that can “eat” aluminum food and then move spontaneously and swiftly in various solution configurations and structured channels for more than 1 h is discovered. Such biomimetic mollusk is highly shape self-adaptive by closely conforming to the geometrical space it voyages in. The first ever self-fueled pump is illustrated as one of its typical practical utilizations.via Newscientist PausePlay% buffered00:0000:00UnmuteMuteDisable captionsEnable captionsSettingsCaptionsDisabledQuality0SpeedNormalCaptionsGo back to previous menuQualityGo back to previous menuSpeedGo back to previous menu0.5×0.75×Normal1.25×1.5×1.75×2×Exit fullscreenEnter fullscreen Explore further Play Credit: Advanced Materials, Article first published online: 3 MAR 2015. DOI: 10.1002/adma.201405438 Journal information: Advanced Materials As part of an effort to better understand the properties of liquid metals, the researchers were working with gallium—after adding a little bit of indium and tin they discovered that if a bit of aluminum was affixed to a single drop of the alloy (to serve as fuel) and the result was dropped into a container of sodium hydroxide (or even salt water) the drop would propel itself around the container for approximately one hour. In subsequent tests they found that if the container was shaped with channels, the drop could be made to follow a pre-designated path. What’s more, they noted that if the drop encountered a part of the channel that was slimmer than it was, it could squeeze through.Surprised by the movement of the drop, the researchers took a closer look—analysis revealed that when the drop was placed in the solution, a charge imbalance occurred between the front and back of the drop, causing a pressure differential. They also found that as the aluminum reacted with the saltwater, tiny bubbles were formed which also served to push the drop forward (so long as the aluminum bit was on the back end.)The experiments by the team build on prior work by them and others (as part of an effort to make “soft” robots) that showed that with some liquid metals, an electric charge can cause both an expansion and change of shape to a drop. The researchers note that if both techniques were used, the result could be drops that not only move themselves through liquids, but change shape according to predetermined needs. They suggest their findings could conceivably pave the way for drops that are used to deliver materials via pipes or even through blood vessels. Play Credit: Advanced Materials, Article first published online: 3 MAR 2015. DOI: 10.1002/adma.201405438 Interestingly, the researchers also noted that if the drop were forced to remain in place in the solution it would cause the liquid around it to move, in essence serving as a pump.last_img read more

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