Wiki User
∙ 14y agoIf you mean vertical speed, you would need to know the amount of lift it's generating, its cross-sectional area and its drag factor (at least!).
More info needed.
Wiki User
∙ 14y agoThere is no change. The bike is moving along a horizontal surface, and only a change in height can change the gravitational PE.
The answer depends on what gas the balloon contains, its initial velocity and the forces - gravity, buoyancy, cross-wind - acting on it.
The speed of an object falling from a great height is measured in meters per second per second until it reaches terminal velocity (maximum downward speed).
"Rate of descent" is a speed; so the idea is to divide the distance by the time.
If the initial velocity is 50 meters per second and the launch angle is 15 degrees what is the maximum height? Explain.
593 meters.
There is no change. The bike is moving along a horizontal surface, and only a change in height can change the gravitational PE.
the second tallest is mount god-win austen and its height is 28251 feet (8611 meters)
The second-highest mountain in the world is K2 with a height of 8,611 meters.
The second-highest mountain in the world is K2 with a height of 8,611 meters.
It is always -9.8 meters per second squared, regardless of height
The answer depends on what gas the balloon contains, its initial velocity and the forces - gravity, buoyancy, cross-wind - acting on it.
The speed of an object falling from a great height is measured in meters per second per second until it reaches terminal velocity (maximum downward speed).
Potential energy is calculated using the formula: potential energy = mass x gravitational acceleration x height. The potential energy represents the energy stored in an object due to its position relative to other objects.
Gravitational acceleration is not measured in meters/second, but in meters/second2. Uranus' surface gravity is about 8.69 meters/second2, a little less than that of Earth.
The surface gravity is 8.69 meters per second squared, less than that of Earth (which is about 9.8 meters per second squared).
The force of gravity at the surface of Venus is 8.87 meters per second per second, or 8.87 meters per second squared. If you weighed 100 pounds on Earth, you would weigh approximately 91 pounds on Venus.