REVOLUTIONIZING AGRICULTURE: GROWING PLANTS IN PLASTICS IN HYDROPONICS FARMING

By ICT, Science & Robotics (srobotics@smack.sc.ug)

INTRODUCTION Hydroponic farming is an innovative method of growing plants without soil, utilizing nutrient-rich water instead. As the demand for sustainable agricultural practices increases, exploring the materials that can enhance hydroponic systems is essential. This project investigates the use of polythene, a versatile plastic, to improve the efficiency and sustainability of hydroponic farming. 

River Nyamwamba Flood Control System

By ICT, Science & Robotics (srobotics@smack.sc.ug)

This Project demonstrates the solutions related to annual floods in Kasese  which are brought up by the river that is well known for flooding and has destroyed peoples property and taken lives of people in the region. It demonstrates fish pond as detention basins which reduce the pressure of fast flowing water hence reducing the volume of water in the river. it  also shows the use flood barriers and afforestation as ways of reducing excess water and using it for sustainable purposes

Population Demographics Management System

By ICT, Science & Robotics (srobotics@smack.sc.ug)

This a system that aims at solving problems related to rapid population growth and all the dangers that come along with it. It harnesses the power of an equation and statistics to predict future populations for better planning and allocation of resources in sectors like Education, Health care and Housing. It helps the country to prevent problems of rapid population like high crime crate and congestion in cities by using the equation: Projected Population=Current Population*(1+growth Rate/100)*Number of Years where the user can even predict the number of of desired years which help in proper planning. It can be used in keeping and storing population data in an arranged form due to its nice-looking interface, predicts years and shows the population to different people for example researchers because the information is arranged and designed using Microsoft Excel 

Making of fertiliser from human hair

By ICT, Science & Robotics (srobotics@smack.sc.ug)

The project focuses on creating a sustainable fertilizer from human hair, utilizing its nitrogen-rich composition to enhance soil fertility. Human hair, a waste product, is processed and transformed into a nutrient-dense organic fertilizer that can be used in agricultural practices. The project aims to address waste management challenges while providing an eco-friendly alternative to synthetic fertilizers, contributing to sustainable farming practices and reducing environmental impact.