Using different chemical seed soaks to improve the rate of germination A 2013 Year 9 Science Project by Josh Martin Class Level 1 with Mr Box Abstract: The purpose of this investigation was to determine which out of five readily available chemicals was the most effective at scarifying seeds to improve the rate of germination‚ and what concentration of the most effective chemical was the most efficacious. Ten seeds for each of the five chemicals hydrogen peroxide‚ glucose
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Nestle (Malaysia) Berhad are cocoa powder‚ malt extract‚ skimmed milk powder‚ palm oil‚ sugar‚ etc. ii) Work-in-progress – The products that have not been completed which under processing. (Loughran‚ 2012) For example‚ the roasted cocoa beans‚ crushed cocoa beans‚ cocoa “nibs”‚ skimmed milk‚ green malt‚ cold raw milk‚ cream milk‚ etc. iii) Finished goods – It is goods that are ready to be consumed and have finished the manufacturing process. (Loughran‚ 2012) For example‚ the finished goods are Milo
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phenotypic ratios the plants present. The procedure of this experiment was plant six different crosses and water them correctly so that we could observe the different phenotypes and compare them to Mendel’s proposed ratios. Mendel‚ who had studied peas‚ did a similar experiment and came up with specific ratios that a monohybrid and dihybrid cross should show. His findings were that for a monohybrid cross‚ such as my crosses three and six‚ the phenotypes would have a ratio of 3:1 (Russell 2003). My
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salinity concentrations‚ demonstrated by the larger p values in each of the t-tests for control versus high concentration‚ as opposed to the t-tests for control versus low concentration. Another trend which occurred is the more successful the seed germination for the control‚ the smaller the significance in p
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Materials and Methods This experiment required 30 Alaskan Pea seeds‚ 3 pots (4 1/16in x 2in)‚ two 60in Vigoro Sturdy Bamboo Plant Stakes‚ one API Nitrate (〖NO〗_3^( -))Test Kit‚ one API Phosphate (PO_4^(-3)) Test Kit‚ half of one bag of 3.7L bag of Earthgro: The Natural Choice Potting Soil‚ 10 Red Wriggler Earthworms (Eisenia foetida)‚ 2 mesh strainers (1 small‚ 1 big)‚ one 400mL beaker‚ 4 glass tubes‚ one 12in ruler‚ Garden Clippers‚ Greenhouse‚ Greenhouse Thermometer‚ Greenhouse Watering Can‚ and
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Legumes Chickpea (Cicer arietinum) An annual Asian plant in the pea family‚ widely cultivated for the edible seeds in its short inflated pods. A round yellowish edible seed‚ widely used as a pulse. Also called garbanzo. There are two types of chickpeas: desi and kabuli. Desi contains smaller‚ darker seeds and have more of a rough coat. Kabuli is a larger‚ lighter colored bean with a smoother coat. Uses * Chickpeas are an important food plant in India‚ Africa‚ and Central and South America
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trying to see which prey (beans) would survive and which predators (students with different type of mouthpart) would survive. I think green bean would survive because it is very tiny. The predator use hand as mouthpart would survive. To start the lab‚ we need seven different beans together‚ which includes split pea‚ kidney bean‚ large white bean‚ black bean‚ pinto bean‚ small white bean‚ and red bean. Each type of beans has to be 100. Once each of these collections of beans is measured out‚ the entire
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a spot in nature. I am trying to see which one of these plants inhibits the germination of radish seeds the most. Putnam (1984) reported that eucalyptus species released volatile compounds such as benzoic‚ cinnamic and phenolic acids‚ which inhibit growth of crops and weeds growing near it. Eucalyptus is a widely well-known allelopathic plant. I believe that Eucalyptus will allow the least amount of germination of radish seeds between Eucalyptus‚ Lemon‚ and a control. Allelopathy Lab
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Effect of Ionizing Radiation on the Germination‚ Growth and Development of Corn (Zea mays L.) Alexis A. Parco BIO30 Group 1 Sec. A-6L September 27‚ 2012 ABSTRACT Corn seeds pre-exposed to 10‚ 30‚ and 50 kiloRads (kR) of radiation were grown in plots for almost 7 weeks. Four different setups – 10kR‚ 30kR‚ 50kR and the control‚ each with 10 corn seeds initially planted – were observed three times a week (during Mondays‚ Wednesdays and Fridays)‚ and the height of each growing corn was
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hypothesized that bigger seed will require more oxygen because more energy is needed to sustain the seed’s homeostasis. For this experiment 4 groups was set up with 0.5 mL worth of the following seeds: peas (1) ‚ black beans (1)‚ radish seeds‚ and glass beads (control). The black bean served as the biggest size‚ peas were medium‚ and radish seeds were the smallest. After setting up the microrespirometer and placing each tested object inside the barrel‚ it was placed in a water bath at 19 degrees celsius and
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