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Describe the effect of increasing the speed of a cyclist on the bending while turning.
Increasing the speed of a cyclist while turning leads to a greater bending angle. This is because a higher speed requires a larger centripetal force
Increasing the speed of a cyclist while turning leads to a greater bending angle. This is because a higher speed requires a larger centripetal force
See lessExplain the phenomenon of the bending of a cyclist while turning.
When a cyclist turns, they lean inwards towards the center of the turn. This bending is due to the principle of conservation of angular momentum. By reducing their body's radius, the cyclist decreases the centripetal force required to maintain balance while turning.
When a cyclist turns, they lean inwards towards the center of the turn. This bending is due to the principle of conservation of angular momentum. By reducing their body’s radius, the cyclist decreases the centripetal force required to maintain balance while turning.
See lessProvide an example of a centrifuge application in the medical field.
One example of a centrifuge application in the medical field is the separation of blood components. By spinning a blood sample in a centrifuge, red blood cells, plasma, and other components can be separated, allowing for diagnostic tests or blood component extraction.
One example of a centrifuge application in the medical field is the separation of blood components. By spinning a blood sample in a centrifuge, red blood cells, plasma, and other components can be separated, allowing for diagnostic tests or blood component extraction.
See lessExplain the working of a centrifuge.
A centrifuge works by spinning a sample at high speeds. Centrifugal force causes denser components to move towards the outer edges while lighter components stay closer to the center. This allows separation of substances or particles based on their densities or sizes.
A centrifuge works by spinning a sample at high speeds. Centrifugal force causes denser components to move towards the outer edges while lighter components stay closer to the center. This allows separation of substances or particles based on their densities or sizes.
See lessDefine the principle of a centrifuge and its applications.
The principle of a centrifuge is based on the concept of centrifugal force. It is a device that rotates at high speeds to separate substances of different densities or particles of different sizes. Centrifuges are used in various fields such as medicine, research, and industry.
The principle of a centrifuge is based on the concept of centrifugal force. It is a device that rotates at high speeds to separate substances of different densities or particles of different sizes. Centrifuges are used in various fields such as medicine, research, and industry.
See lessDescribe the factors influencing the banking angle of a road.
The factors influencing the banking angle of a road are the speed of the vehicle, the radius of the curve, and the coefficient of friction between the tires and the road surface. A higher speed or tighter curve requires a greater banking angle.
The factors influencing the banking angle of a road are the speed of the vehicle, the radius of the curve, and the coefficient of friction between the tires and the road surface. A higher speed or tighter curve requires a greater banking angle.
See lessExplain the banking of roads and its purpose.
The banking of roads refers to the inward slope provided to the surface of a road at curves. It helps to prevent vehicles from skidding off the road while taking turns by providing an additional centripetal force towards the center of the curve.
The banking of roads refers to the inward slope provided to the surface of a road at curves. It helps to prevent vehicles from skidding off the road while taking turns by providing an additional centripetal force towards the center of the curve.
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