0.98N, if the value of gravity is a constant at 9.8m s^-2.
t matters how much mass the ball has
No you do not need the same amount of force to throw a basketball 3 meters as you would need to throw a golf ball 3 meters. The amount of force required to throw a basketball 3 meters depends on several factors: The weight of the ball: Basketballs are much heavier than golf balls. The size of the ball: Basketballs are much larger than golf balls. The amount of air resistance: Basketballs are much more aerodynamic than golf balls.Therefore you would need to generate more force to throw a basketball 3 meters than you would to throw a golf ball 3 meters.
10 meters per second 100/10=10
i think that it is 694.44444 metres per second
In a vacuum, like the moon, the acceleration due to gravity is about 9.8 meters per second squared, so each second the speed of the ball increases by 9.8 meters per second. On Earth, with air resistance, the acceleration due to gravity is about 9.81 meters per second squared.
Ignoring Air Resistance, on earth near the earths surface gravity applies a force on all bodies. The acceleration the ball will experience is -9.8 meters per second per second (i.e. it will slow the ball down. When the ball then falls to the ground from the apogee of the throw it will continue to accelerate at 9.8 meters per second per second per second and will hit the ground at the same speed it left the ground originally. So each second it will slow by 9.8 meters per second. 9.8 meters per second, (or 32.2 feet per second), if the experiment is carried out on or near the surface of the earth. 1.6 meters (5.25 feet) per second, if it's on or near the surface of the moon. 3.52 meters (11.5 feet) per second, if it's on or near the surface of Mars.
The speed reading on the speedometer would increase by approximately 9.8 meters per second for every second the ball falls, assuming it is falling under only the force of gravity. This rate of increase is due to the acceleration of gravity pulling the ball downwards.
0.98N, if the value of gravity is a constant at 9.8m s^-2.
t matters how much mass the ball has
Ten times more, assuming it has the same speed. To have actual numbers, you have to multiply mass (kilograms) times velocity (meters/second) for both balls.
The pins gained the same amount of momentum that the bowling ball lost, according to the law of conservation of momentum. So, the pins gained 0.5 kg meters per second of momentum in the opposite direction to the bowling ball's initial momentum.
55 mph = 24.59 meters per second.
1500 meters/330 meters per second = 4.55 seconds
No you do not need the same amount of force to throw a basketball 3 meters as you would need to throw a golf ball 3 meters. The amount of force required to throw a basketball 3 meters depends on several factors: The weight of the ball: Basketballs are much heavier than golf balls. The size of the ball: Basketballs are much larger than golf balls. The amount of air resistance: Basketballs are much more aerodynamic than golf balls.Therefore you would need to generate more force to throw a basketball 3 meters than you would to throw a golf ball 3 meters.
6.06060606061
10 meters per second 100/10=10