the streamlined shape help to reduce air and water resistance like the shape of a plane and birds and fishes so as to reduce the over working and enable quick movement to it imposes less work not velocity
The factors that affect terminal velocity in a fluid include the weight and size of the object, the density and viscosity of the fluid, and the shape of the object. Objects with a larger surface area or lower weight will reach terminal velocity faster, while denser fluids or more streamlined objects will increase terminal velocity.
The shape of an object does not affect its velocity because velocity is determined solely by the object's speed and direction of motion. The shape of an object may affect other factors such as air resistance or aerodynamics, which can influence how quickly the object slows down or changes direction, but it does not directly affect its velocity.
The terminal velocity of a bouncy ball depends on its size, weight, shape, and the air resistance it encounters during its fall. Generally, the terminal velocity of a bouncy ball is low compared to heavier objects due to its low mass and streamlined shape.
well, often, boats hulls are streamlined to lower the time of a journey.
Changing the shape of an object can affect friction and air resistance. For friction, the surface area in contact with another surface can increase or decrease, altering the friction force. For air resistance, a more streamlined shape will experience less resistance compared to a less streamlined shape due to differences in how air flows around the object.
Yes, the shape of a ball can affect the speed at which it falls. Objects with a more aerodynamic shape, such as a streamlined sphere, will typically fall faster through the air compared to irregularly shaped objects. The streamlined shape reduces air resistance and allows the ball to fall more quickly.
Their shape and aerodynamic efficiency makes them streamlined.
football
The shape of a paperclip can affect its floating ability if it alters the distribution of weight and buoyancy. A paperclip with a more streamlined shape is likely to float better than one with irregular bends and angles that may disrupt its balance in water.
Fluid density, relative velocity, and object shape affect air resistance.
They have streamlined bodies so that they can cut through the wind and air
because its round