The flat object has more drag (air resistance) than the large object.
The primary advantage of a double tuned amplifier, such as, an amplifier with a tuned circuit on the input and the output, is narrow bandwidth. Another advantage to the circuit is impedance matching with the previous stage, etc. And last but not least your double tuned amplifier will have more gain for electrons spent getting the job done. In our battery operated everything world that is an important design factor.
Objects smaller than planets and dwarf planets, which are not moons, are called asteroids.The smallest are called meteoroids, especially when they encounter a larger body, and micrometeoroids if they are as small as grains of sand or dust, or even smaller.(because of their low mass, micrometeors can survive atmospheric deceleration to reach the surface)
Alice In Wonderland Syndrome, also known as AIWS, is a disorientating neurological condition, that affects your visual perception, leading you to believe that certain objects are appearing much larger or smaller than the actually are. Also known as Micropsia
Since Harpies not only live up in the canopy but also are found to hunt in the emergent areas or the ground, they probably do eat anacondas, more likely targeting the younger or baby snakes over the larger adults.
Young members of its community begin adopting nontraditional opinions and beliefs. - APEX
The larger and flatter object experiences more air resistance due to its greater surface area, which slows down its descent compared to the smaller object. This increased air resistance causes the larger object to take longer to reach the ground than the smaller object.
Per Wikipedia "Under an assumption of constant gravity, Newton's law of universal gravitation simplifies to F = mg, where m is the mass of the body and g is a constant vector with an average magnitude of 9.81 m/s²"In other words- the two objects will fall at the same speed, subject only to wind resistance.IF the "larger and flatter" STAYED flat, (unlikely if not spinning) it would have higher wind resistance and go slower in atmosphere.
because they are smaller than larger objects
Building foundations have a large horizontal area of contact with the ground to provide stability and distribute the weight of the structure over a larger area. This helps prevent settlement or sinking of the building by minimizing the pressure exerted on the soil below. A larger contact area also helps to disperse any uneven loads or external forces, ensuring the structural integrity of the building.
Any levels of the building below ground level are normally considered basement. In larger buildings they are sometimes referred to as sub-levels.
Building foundations have a large horizontal area of contact with the ground to distribute the weight of the structure evenly and prevent it from sinking or tilting. This helps to provide stability and support for the entire building. The larger the contact area, the more effectively the weight of the building can be spread out, reducing the risk of structural failure.
The smaller objects which are built to represent the larger objects are called Model
Larger objects have greater mass, which means they have more inertia. Inertia is the tendency of an object to resist changes in its motion, so more force is needed to overcome this resistance and accelerate larger objects.
Yes all objects fall at the same speed but there are objects that are aided by the air that don't fall to the ground at the same speed. For example, a feather and a brick. A feather is a object that is aided by air. A brick is a object that wind cannot blow away. If I drop both of them down with the same time down a 100 feet building, then definitely the brick will totally reach the ground first ............ well and it will get crushed into pieces while the feather might be blown away into a different place and reach the ground last.:) :):):):):):):):):)
Unless you have a flat roof, no; the surface area of the roof will be larger than the ground area of the building.
If a concave mirror is made flatter, its focal length will increase. This is because a flatter mirror has a larger radius of curvature, resulting in light rays converging at a point farther away from the mirror.
a microscope