Answer:
Explained below.
Explanation:
Adhesion as well as cohesion remain water features that transform every water molecule on Earth as well as also the interplay of water molecules betwixt molecules of different materials. Naturally, cohesion, as well as adhesion, are some "stickiness" that liquid molecules possess for several others including for different elements.
Thou can see the aforementioned in the attached image of pine needles. Water droplet is formed of water molecules that want to stick synchronically, an <u>illustration of the characteristic cohesion</u>. The water droplet is attached to the end of specific pine needles, which is an <u>illustration of the character of adhesion</u>. Also prominent in this image is the result that gravity has on the water droplets. Gravity is acting against both adhesions as well as cohesion, attempting to draw the water droplet earthward. Adhesion as well as cohesion are acquiring the campaign so far, as the droplets are sticking to particular pine needles.
Answer:
Because the ping pong ball has a lesser mass than a baseball; hence the ping pong ball will accelerate faster than the baseball when a constant force is applied to both
Explanation:
The force applied to an object is a product of its mass and acceleration i.e. F=ma. According to Newton's second law of motion, the relationship between the mass of an object and its acceleration when force is applied to it was described.
In a summary, the second law states that that the acceleration of an object increases with increased force and decreases with increased mass. This means that the more the mass of an object, the greater the force needed to make it accelerate and also the more the mass, the lesser it accelerates.
In this case, a ping pong ball has a lesser mass compared to a baseball, hence, it will accelerate faster than the baseball assuming an equal force was applied. Since the ping pong ball will accelerate faster, it will hit a person faster than the baseball.
<span>That's called heredity</span>
Answer:
Farming is not readily available due to dense vegetation.
Explanation: