It stretches, it drawers out and extends
A knot. The tighter you pull on a knot, the smaller and more compact it becomes.
Larger objects have more gravity than smaller objects because they have more mass. Gravity is directly proportional to an object's mass - the more mass an object has, the stronger its gravitational pull. This is described by Newton's law of universal gravitation.
A knot goes shorter the more you pull it.
Objects with more mass have a greater gravitational force than objects with less mass. Gravity is directly proportional to mass, so the more mass an object has, the stronger its gravitational pull.
The size of the balloon does impact its lifting capacity because a larger balloon can displace more air and generate more lift. So, larger balloons generally have a greater lifting power compared to smaller ones.
A knot. The tighter you pull on a knot, the smaller and more compact it becomes.
No, you weigh less as it is smaller. I think your mass stays the same but your weight changes as the gravitational pull of the moon is much smaller comparedto the earth's one.
Not necessarily, gravitational pull is dependant upon the mass of an object. A smaller object can have more mass than a bigger object (An extremely dense 1x1x1 cube has more gravitational pull than a less dense 3x3x3 cube that has less mass). Size has absolutely NOTHING to do with gravitational pull.
No. Pluto is actually smaller then Our Moon, Therefor Less gravitational Pull.
The sun is much bigger than planets and has more mass, so it also has more gravitational pull. Objects in space with a greater gravitational pull can keep smaller objects in orbit.
Larger objects have more gravity than smaller objects because they have more mass. Gravity is directly proportional to an object's mass - the more mass an object has, the stronger its gravitational pull. This is described by Newton's law of universal gravitation.
depend on how big or small the object is, the greater the more gravtational pull it has, smaller the object is less gravatational pull it has. if the object changes mass well that when the gravitatonal pull becomes either stronger or weaker, but all depends.
depend on how big or small the object is, the greater the more gravtational pull it has, smaller the object is less gravatational pull it has. if the object changes mass well that when the gravitatonal pull becomes either stronger or weaker, but all depends.
more than likely not a 25cc engine pull start should be smaller and the insides could be different call a dealer than can tell you for sure
Long pull brakes have a longer cable pull distance compared to short pull brakes. This affects the amount of force needed to apply the brakes and the overall braking power. Long pull brakes provide more leverage and are better suited for larger tires or fenders, while short pull brakes are more responsive and better for smaller tires. The choice between the two depends on the specific needs and preferences of the rider.
Filled with gravity? It does have gravity, just not as great as Earth's since it is smaller. The greater an object, the more gravity it has to pull objects close to it.
A larger, more powerful tide to the side of the moon, and a weaker, smaller tide toward the sun