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How would the terminal velocity of an object falling towards earth differ than the terminal velocity of the same object falling through water?
because water has higher viscosity than air so resisting the movement of the body in it more than air so decreasing the velocity
What is the circumference of a water droplet from a pipette?
The circumference of a water droplet from a pipette would vary depending on the size of the droplet. However, typically, water droplets are very small, so the circumference would be in the range of micrometers to millimeters.
What forces have to be balanced for terminal velocity to be reached by an object?
For an object in freefall, terminal velocity is reached when the drag force becomes equal and opposite to the force of gravity. This creates a net force of 0, resulting in no further acceleration.
What occurs when an oil droplet is dispersed in water?
Oil ad water are not miscible; two phases appear.
What is a word set for droplet of water?
A possible word set could be: bead, dewdrop, raindrop.
Why is the terminal velocity in water less than the terminal velocity in air?
More resistance, caused by a greater density.
Is terminal velocity the same in water as in air?
no
Why is terminal velocity in water less than the terminal velocity in air?
The incompressibility, inertia and relatively higher viscosity of water make it difficult to displace, so its reactive forces on the falling object are greater; hence the terminal velocity is reduced.
What is the terminal velocity of falling objects in water?
Terminal velocity of falling objects in water depends on the object's shape, size, and density, as well as the water's viscosity. Generally, small objects like spheres have lower terminal velocities due to less drag, while larger or less streamlined objects will have higher terminal velocities. The terminal velocity is reached when the force of gravity on the object is balanced by the drag force acting in the opposite direction.
What is the speed of a diver hitting the water from a height of ten meters?
Terminal velocity
What kind of spider wears a water droplet hat?
The kind of spider that wears a water droplet hat is called the "water droplet spider."
How would the terminal velocity of an object falling towards earth differ than the terminal velocity of the same object falling through water?
because water has higher viscosity than air so resisting the movement of the body in it more than air so decreasing the velocity
Why fog droplets appear to be suspended in air?
its because the terminal velocity is directly proportional to mass and square of the radius of the drop. the radius and mass of the droplet is very very less...so terminal velocity of the droplet is also very less.. that why it is suspended in the air..
What is terminal velocity dependent upon?
Terminal velocity is dependent on the drag force acting on an object and its weight. As an object falls through a fluid (like air or water), the drag force increases until it balances out the weight of the object, causing it to stop accelerating and to fall at a constant speed known as terminal velocity. The shape and size of the object, as well as the density of the fluid it is falling through, also impact its terminal velocity.
What is the terminal velocity of water and how does it impact the motion of objects falling through it?
The terminal velocity of water is the maximum speed at which an object can fall through water due to the resistance of the water. It impacts the motion of objects falling through water by slowing them down until they reach a constant speed where the force of gravity is balanced by the resistance of the water.
How can a water droplet hat protect you from a spider?
A water droplet hat can protect you from a spider because the droplet acts as a barrier that the spider cannot easily cross. The spider may have difficulty navigating the slippery surface of the water droplet, making it harder for it to reach you.
Do bubbles reach terminal velocity?
It depends on the type of bubbles. Hydrogen bubbles are often used to visualize aerodynamic flows around models. How you would work out their terminal velocity is by balancing their drag force and buoyancy force. First you would need an estimate of the bubble diameter, somewhere around .025 mm. For water, density of fluid =998 kg/m3 and fluid viscosity = 1.12*10-3 Pa*s FB=density of fluid*volume of bubble*gravity FD=3*pi*fluid viscosity*diameter*velocity of water At the terminal velocity FD=FB, you should have all the other variables, just rearrange to solve for the terminal velocity.
