UK

INTRODUCTION

To get the best out of your new apparatus, please read this user guide carefully before using it for the first time. We also recommend that you keep the instructions for future reference, so that you can remind yourself of the functions of your apparatus.

SAFETY MEASURES

Incorrect use of the appliance may damage it.

Use for its intended purpose only. The manufacturer is not responsible for any injury or damage resulting from incorrect use or handling (see also Guarantee Terms).

For domestic use only. Not for commercial use.

Do not place the appliance on a carpeted or uneven surface, and do not place it close to electrical appliances, since their radiation may cause the appliance not to function properly.

Do not place or store near powerful heat sources or in a damp environment.

Do not store other objects on top of the appliance.

Do not immerse in water or allowed to get wet.

Do not expose to direct sunlight for long periods.

Remove the batteries if the appliance is not to be used for a prolonged period.

Do not attempt to weigh objects which exceed the appliance's maximum capacity of 5 kg.

If the appliance has been damaged, it should be inspected and if necessary repaired by an authorised repair engineer. Please contact the store where you bought the appliance for repairs under guarantee. Unauthorised repairs or modifications to the appliance will invalidate the guarantee.

KEY TO MAIN COMPONENTS OF THE APPARATUS

1.Weighing platform

2.Display

3.UNIT button (unit of measurement)

4.”ON/TARE” button (ON/TARE)

5.Rubber feet (4 of) with sensors

6.Lock tab

7.Battery cover

8.Battery compartment

PRIOR TO FIRST USE

Press the lock tab (6) to remove the battery cover (7) on the underside of the appliance.

Insert 2 x 3 volt batteries, type CR-2032, in the battery compartment (8).

o Make sure that the batteries are correctly inserted, since incorrectly inserted batteries may damage the appliance! See diagram on battery cover.

o Press the batteries firmly into place.

Replace the cover.

USE

Place the appliance on a level surface.

Switch the appliance on by pressing the “ON/OFF” button (4). Wait until the a unit of measure and one or more digits are shown on the display (2).

Choose the desired unit of measurement by pressing the UNIT button (3). There are four units of measurements available:

o g (grams)

o kg (kilograms) o oz (ounces)

o lb/oz (pounds/ounces)

Place the object you wish to weigh on the weighing platform (1).

Wait until the display is stable, and read the weight on the display.

Use the tare function of the appliance to weigh several consecutive objects in the following manner:

1.Place the first object (for example, a bowl) on the weighing platform (1). If desired, note the weight of the object before proceeding.

2.Press the "ON/TARE" button once to reset the weight. The weight of the first object will now be displayed as zero, even though it remains on the weighing platform.

3.Place the next object on the weighing platform (e.g. by pouring an ingredient into the bowl) and read the weight when the display is stable. Only the weight of the ingredients in the bowl will be displayed.

4.Repeat steps 2 and 3 as required, if you wish to add more ingredients.

The appliance automatically switches off after approx. 1 second with no activity.

NOTE:

If you try to weigh something heavier than the appliance can bear (more than 5 kg), the display will show “O-ld” (Overload).

If you wish to move the appliance, you should turn it off before moving. Do not switch it on again until it is placed correctly on an even surface in order for it to calibrate correctly. The sensors in the rubber feet only function properly when resting on a level surface.

10

Page 10
Image 10
Melissa 246-031 manual Introduction, Safety Measures, KEY to Main Components of the Apparatus, Prior to First USE, Use

246-031 specifications

Melissa 246-031 is an advanced synthetic organism designed for research and practical applications in various fields such as agriculture, bioengineering, and environmental science. Engineered through synthetic biology techniques, Melissa exhibits unique characteristics that allow it to thrive in diverse conditions while performing specialized functions.

One of the main features of Melissa 246-031 is its enhanced resilience to environmental stressors. This organism can withstand extreme temperatures, varying pH levels, and limited nutrient availability, making it an ideal subject for studying adaptation mechanisms in synthetic life forms. This resilience not only provides insights into survival strategies but also holds promise for applications in bioremediation, where it could potentially be used to rehabilitate contaminated environments.

The organism harnesses state-of-the-art CRISPR gene-editing technology, enabling precise modifications to its genetic makeup. This technology allows researchers to tailor Melissa’s traits for specific research purposes or practical applications, such as improving crop yields or biofuel production. By leveraging CRISPR, scientists can introduce or remove genes efficiently, paving the way for the development of customized organisms suited to unique ecological niches.

Another significant characteristic of Melissa 246-031 is its ability to synthesize complex organic compounds. By incorporating biosynthetic pathways from various organisms, this synthetic life form can produce valuable substances like bioplastics, pharmaceuticals, and biofuels. This feature points to the potential of using Melissa as a biological factory, minimizing reliance on traditional chemical manufacturing processes that can be harmful to the environment.

Additionally, Melissa 246-031 employs an innovative approach to energy efficiency. It utilizes photosynthetic mechanisms similar to those found in plants, which allows it to harness solar energy effectively. This feature not only boosts its growth rate but also underscores its potential role in sustainable agriculture by reducing the need for artificial fertilizers and energy sources.

Overall, Melissa 246-031 represents a breakthrough in synthetic biology, combining resilience, adaptability, and efficiency for a wide array of applications. As research continues, the organism is poised to make significant contributions to environmental sustainability, agricultural advancements, and bioengineering, ultimately paving the way for innovative solutions to contemporary challenges. The future applications of Melissa stand to revolutionize the way we approach ecological issues and resource generation.