The mass of a balloon car affects the distance it can travel and the speed it can achieve. A heavier balloon car will typically have more inertia, making it harder to accelerate and affecting the distance it can travel. Conversely, a lighter balloon car will accelerate more easily and cover a greater distance due to less inertia.
No, the speed of an object cannot be determined solely by its mass and distance. Speed is calculated as the distance an object travels over a specific time period. To determine an object's speed, you would need to know both the distance it has traveled and the time it took to cover that distance.
The mass a balloon can lift is affected by its size and the amount of air it can displace. A larger balloon can lift more mass because it can displace more air and create more lift. However, if a balloon is too large, its weight may exceed the lift it can generate, limiting the mass it can carry.
No, the mass of the deflated balloon is the same as the mass of the inflated balloon, as the only thing that changes is the volume and density of the air inside the balloon.
The relationship between mass, distance, and speed is defined by the laws of motion. Specifically, Newton's second law of motion states that the acceleration of an object is directly proportional to the force applied to it (which is related to its mass) and inversely proportional to its mass. Distance and speed are related through the concept of velocity, which is the rate of change of an object's position with respect to time.
The factor that has a greater overall effect on gravitational force is distance. Gravitational force decreases as the distance between two objects increases, while mass affects the magnitude of the force but not as significantly as distance.
Momentum. Distance divided by time is speed. Mass times speed is momentum.
Gravitational force depends only on an object's mass and its distance from the center of the earth. Its speed has no effect on the gravitational force.
No. A planet's gravitational pull is determined by the planet's mass. A planet's orbital speed is determined by the the mass of the Sun and the planet's distance from the Sun.
The only way that mass can have an effect on distance is if you're paying a taxi driver with mass.
depends on mass and if you include the air. same mass and not including the air they both weigh the same, air just expands the balloon and lowers the effect of gravity.
I cannot say about "lenght", but distance is a measure of length so length affects distance. Speed is the rate of change of distance (over time) so length affects speed. Mass does not significantly affect speed or distance but, because they are affected by acceleration and acceleration is affected by mass (for a given force), then mass affects them. Also, mass affects space time and the presence or absence of mass changes the lines along which distances are measured and so distances and speed are affected.
No, the speed of an object cannot be determined solely by its mass and distance. Speed is calculated as the distance an object travels over a specific time period. To determine an object's speed, you would need to know both the distance it has traveled and the time it took to cover that distance.
The mass a balloon can lift is affected by its size and the amount of air it can displace. A larger balloon can lift more mass because it can displace more air and create more lift. However, if a balloon is too large, its weight may exceed the lift it can generate, limiting the mass it can carry.
Mass has no effect on torque. Torque is the product of distance (from the axis), force, and an angular function. Mass can, however, make the turbine more stable - it will take longer to react to variations in wind. More mass will increase the MOMENT OF INERTIA (rotational inertia).
No, the mass of the deflated balloon is the same as the mass of the inflated balloon, as the only thing that changes is the volume and density of the air inside the balloon.
Mass as well as distance.
Mass & distance.