It is counteracted by the cell wall.
both temperature and internal energy
Internal energy at the microscopic level and thermodynamic or mechanical energy at the macroscopic level. According to conservation of energy the sum of kinetic and potential energy is zero.
The main organelle that eukaryotes(eukaryotic cells) possess is the NUCLEUS
Yes, the stomach do kill bacteria. But in the presence of Hydrochloric acid (HCl). This acid can be harmful to the human body also if mucous layer lining the internal layer of the stomach and the alimentary canal is destroyed resulting in peptic ulcer.
most are found in the eubacteria kingdom
yes
When mechanical work is done, the internal energy of a system can change. If work is done on the system, the internal energy increases. Conversely, if work is done by the system, the internal energy decreases. This change in internal energy is governed by the first law of thermodynamics.
to produce mechanical energy
Osmosis
Yes, examples are steam turbines, locomotive, hydraulic turbines, etc.
The heat generated during chemical transport or mechanical work is typically released to the organism's surroundings, contributing to the organism's overall heat balance. This heat can be dissipated through processes such as convection, radiation, and evaporation to maintain the organism's internal temperature within an optimal range for biological processes.
The likely word is "sonogram" (a sound-generated image of an internal structure).
Thermal Energy
Thermal Energy
both temperature and internal energy
The internal energy of the system increases, leading to a decrease in mechanical energy available for work. This can manifest as an increase in temperature within the system due to the conversion of mechanical energy into thermal energy.
Bearings are like invisible heroes inside mechanical devices because they make such mechanical devices to move right from their internal positions.