Flavor Retention and Physical Properties of Rice Cakes Prepared from Coated Rice Grain

2002 ◽  
Vol 79 (3) ◽  
pp. 387-391 ◽  
Author(s):  
A. P. Klamczynski ◽  
G. M. Glenn ◽  
W. J. Orts
Keyword(s):  
Physical Properties ◽  
Rice Grain ◽  
Flavor Retention ◽  
Rice Cakes

Physical Properties of Rough Rice

2009 ◽  
Vol 5 (5) ◽  
Author(s):  
Reza Farahmandfar ◽  
Esfandiyar Farahmandfar ◽  
Amir Ramezani
Keyword(s):  
Physical Properties ◽  
Physical And Mechanical Properties ◽  
Equivalent Diameter ◽  
Rice Grain ◽  
Rice Cultivars ◽  
True Density ◽  
Rough Rice ◽  
Length Width ◽  
Mass Volume ◽  
Size Grading

Knowledge of the physical and mechanical properties of the rice grain is being used in the handling, planting, harvesting, threshing, cleaning, size grading, up grading, treating and packaging. Several physical properties of three rough rice cultivars (Poya, Khazar and Haraz) were determined and compared in terms of length, width, thickness, aspect ratio, arithmetic diameter, geometric diameter, equivalent diameter, sphericity, mass, volume, surface area, bulk density, true density and porosity. A linear model for describing the mass of rough rice grain for each cultivar was also investigated.

scholarly journals The effect of organic waste application on some soil physical properties, growth and yield of red rice between conventional and aerobic irrigation system on raised-beds

2021 ◽  
Vol 913 (1) ◽  
pp. 012003
Author(s):  
I G M Kusnarta ◽  
A Mawaddah ◽  
N W D Dulur ◽  
W Wangiyana
Keyword(s):  
Physical Properties ◽  
Grain Yield ◽  
Rice Husk ◽  
Organic Waste ◽  
Rice Husk Ash ◽  
Irrigation System ◽  
Cattle Manure ◽  
Growth And Yield ◽  
Rice Grain ◽  
Red Rice

Abstract The objective of this study was to evaluate the effect of organic waste application on some soil physical properties, growth and yield of red rice between conventional and aerobic irrigation systems on permanent raised-beds. The experiment was carried out in May to August 2020, under Split Plot design with two factors namely techniques of rice cultivation (conventional, T1; aerobic irrigation system, T2) as main plots, and organic wastes (L0=without organic waste, L1=rice husk, L2=rice husk ash, L3=rice husk ash and cattle manure) as the subplots. Results indicated that both treatment factors affected some physical properties of the soil, growth, and yield of red rice. Some variables showed significant interaction namely soil bulk density, red-rice height, leaf number and dry straw weight. Changing rice cultivation technique from conventional to aerobic irrigation system significantly reduced soil bulk density, especially under application of rice husk ash together with cattle manure or without cattle manure, resulting in the highest red rice grain yield of 37.78 g/clump whereas under conventional without organic wastes, grain yield was only 21.27 g/clump. On average, changing from conventional technique to aerobic irrigation system could increase red rice grain yield by 40.13%.

Rice grain discoloration effect on physical properties and head rice yield in three rice cultivars

2016 ◽  
Vol 8 (2) ◽  
pp. 283-288 ◽  
Author(s):  
M. Mobasher Amini ◽  
M.R. Alizadeh ◽  
F. Padasht ◽  
S.A. Elahinia ◽  
S.A. Khodaparast
Keyword(s):  
Physical Properties ◽  
Rice Yield ◽  
Rice Grain ◽  
Rice Cultivars ◽  
Head Rice ◽  
Head Rice Yield

The Photometric Properties of the Ap Stars

1976 ◽  
Vol 32 ◽  
pp. 365-377 ◽  
Author(s):  
B. Hauck
Keyword(s):  
Physical Properties ◽  
Ap Stars

The Ap stars are numerous - the photometric systems tool It would be very tedious to review in detail all that which is in the literature concerning the photometry of the Ap stars. In my opinion it is necessary to examine the problem of the photometric properties of the Ap stars by considering first of all the possibility of deriving some physical properties for the Ap stars, or of detecting new ones. My talk today is prepared in this spirit. The classification by means of photoelectric photometric systems is at the present time very well established for many systems, such as UBV, uvbyβ, Vilnius, Geneva and DDO systems. Details and methods of classification can be found in Golay (1974) or in the proceedings of the Albany Colloquium edited by Philip and Hayes (1975).

The Infection of Cells by Bullet-Shaped Viruses

1969 ◽  
Vol 27 ◽  
pp. 372-373
Author(s):  
Frederick A. Murphy ◽  
Alyne K. Harrison ◽  
Sylvia G. Whitfield
Keyword(s):  
Electron Microscopy ◽  
Physical Properties ◽  
Host Cell ◽  
Thin Section ◽  
Cultured Cells ◽  
Cell Infection ◽  
Thin Section Electron Microscopy ◽  
Section Electron ◽  
Section Electron Microscopy

The bullet-shaped viruses are currently classified together on the basis of similarities in virion morphology and physical properties. Biologically and ecologically the member viruses are extremely diverse. In searching for further bases for making comparisons of these agents, the nature of host cell infection, both in vivo and in cultured cells, has been explored by thin-section electron microscopy.

Transmission electron microscopy of composite materials

1988 ◽  
Vol 46 ◽  
pp. 1012-1015
Author(s):  
K.P.D. Lagerlof
Keyword(s):  
Composite Materials ◽  
Physical Properties ◽  
Structural Defects ◽  
Structural Composites ◽  
Multiphase Materials ◽  
Structural Reinforcement ◽  
Transmission Electron ◽  
Reinforced Fiber ◽  
Particulate Reinforced Composites ◽  
Definition Of

Although most materials contain more than one phase, and thus are multiphase materials, the definition of composite materials is commonly used to describe those materials containing more than one phase deliberately added to obtain certain desired physical properties. Composite materials are often classified according to their application, i.e. structural composites and electronic composites, but may also be classified according to the type of compounds making up the composite, i.e. metal/ceramic, ceramic/ceramie and metal/semiconductor composites. For structural composites it is also common to refer to the type of structural reinforcement; whisker-reinforced, fiber-reinforced, or particulate reinforced composites [1-4].For all types of composite materials, it is of fundamental importance to understand the relationship between the microstructure and the observed physical properties, and it is therefore vital to properly characterize the microstructure. The interfaces separating the different phases comprising the composite are of particular interest to understand. In structural composites the interface is often the weakest part, where fracture will nucleate, and in electronic composites structural defects at or near the interface will affect the critical electronic properties.

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