well a newton is the amount of force needed to move one kilogram at a meter
per second, so the logical answer for your illogical question would be a a wind
force that can move 3000 kilograms in one second
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Answer #2:
Answer #1 is hogwash. 1 newton is not 1 kilogram at a meter per second, and so
the rest of the answer, predictably, is even farther down the slippery slope.
3,000 newtons is a force, equivalent to about 674 pounds.
The force of wind against any material object depends not only on the speed of
the wind, but also on the size and shape of the object. So it's not possible to say
what wind speed is required to push on an object with 674 pounds of force. But you
can be sure that the larger and flatter the object is, the less wind it would take.
force in the opposing direction (Newtons first law). There are no gas molecules so no drag or 'wind resistance' to slow the objects down. RESISTANCE
Pressure gradient force
The basic principle behind the wind mill is that the wind as an external force changes the static force to a kinetic force(from rest to motion).This kinetic energy rotates the wind mill blades which produces electricity.
Yes. but it is rather caused by the the force and the direction of the wind.
pressure gradient force
Wind is a powerful natural force that cannot be protected by carbon units called humans.
At peak intensity, Hurricane Isabel had sustained winds of 165 mph.
The wind is blowing with so much force that the leaf doesn't have enough strength to withstand it, therefore the wind slows down a little but still retains its forward motion. Another example is when you punch a brittle wall. If you hit it with enough force it will break and your fist will go through and keep its forward motion, albeit a little slower.
force in the opposing direction (Newtons first law). There are no gas molecules so no drag or 'wind resistance' to slow the objects down. RESISTANCE
You can measure wind force with force transducer.
you could use a spring behind your object, and calculate inline reaction force from deflection. it will be essential the wind speed is accurately measured force will represent wind velocity squared *drag coefficient , once calculated the drag coefficient can be used elsewhere, in acceleration calculations for instance. measuring forces versus wind speed should produce a exponential graph in the form f = v^2 as drag force is proportional to square of velocity if you translate the action into freefall , at terminal velocity the forces balance, down = mass * gravity acceleration ( newtons) up = velocity ^2 * drag coefficient (newtons)
do palm trees wrap their roots around rocks to sustain them in severe wind stroms
it cant because of...wind and its all gas.
ballons a fan wind baking soda
Wind is a force of the atmosphere. The equivalent force in the hydrosphere would be an ocean current.
Air is set in motion by the Pressure Gradient Force. The Coriolis Force is also relevant, which acts on air once it has been sent into motion (wind) by the PGF. However, don't confuse this Coriolis Force as a force CAUSING wind to blow as it only influences wind direction and NEVER wind speed.
Wind Force + Drag Force = Boat Mass * Acceleration.The wind force overcomes the drag force of the boat.Drag Force = Water Pressure * Keel Area + Air Pressure* Exposed Boat AreaMost of the drag is due to the keel moving through the water. The sails, lines, mast, crew and cargo also add wind resistance.Wind Force = Wind Pressure* Sail Area.The greater the wind pressure and the greater the area of the sail, the greater the wind force.