A wedge tornado is a tornado that appears wider than it is tall.
There is no set size for a wedge tornado. Generally a wedge tornado is one that appears to be wider than the distance from the clouds to the ground and the height of the clouds can vary.
That depends on how long it is. The thickness should be just about 0.65 x the length to make a 33 degree angle.
The Tangemt Formula for Geometry is opposite over adjacent, or opp./adj.
formula for a 6" 45 degree lateral onto a 6" main
higher :)
IMA divided by Length
output distance/input distance
the formula for determing ideal mechanical advantage is effort divided by resistance
The image of a wedge is a shape that resembles a right-angled triangle with one or more additional sides or edges. It typically has a wide base and tapers to a narrow point, forming a triangular prism with a slanted face.
MA= resistance force / effort force = Fr/Fe
To calculate wedge force, you can use the formula: F = T * tan(α), where F is the force applied to the wedge, T is the force perpendicular to the wedge (normal force), and α is the angle of the wedge. This formula assumes the wedge is ideal and there is no friction. Adjustments may need to be made for real-world applications where friction plays a role.
The IMA (ideal mechanical advantage) of a screw is determined by the ratio of the circumference of the screw head to the pitch of the screw thread. The formula for calculating IMA is 2πr/p, where r is the radius of the screw head and p is the pitch of the screw thread.
Ideal Mechanical Advantage can be found using this formula IMA = DE / DR . Ideal Mechanical Advantage is a theoretical calculation, AMA,Êactual mechanical advantage is calculated with this formula, AMA = R / Eactual .
IMA and AMA are unitless
To determine the mechanical advantage of a wedge, you can use the formula: Mechanical Advantage (MA) = Length of the wedge / Width of the wedge. For the first wedge (6cm long, 3cm wide), MA = 6/3 = 2. For the second wedge (12cm long, 4cm wide), MA = 12/4 = 3. Therefore, the second wedge has a greater mechanical advantage of 3 compared to the first wedge's mechanical advantage of 2.
To determine mechanical advantage (MA) of a wedge, we use the formula MA = length of the wedge / width of the wedge. For the first wedge, MA = 6 cm / 3 cm = 2. For the second wedge, MA = 12 cm / 4 cm = 3. Therefore, the second wedge (12 cm long and 4 cm wide) has a greater mechanical advantage of 3 compared to the first wedge's MA of 2.