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If you pushed a volleyball and a balloon with the same force which would have the greater acceleration?
The balloon would have a greater acceleration because it has less mass compared to the volleyball. According to Newton's second law (F = ma), with the same force applied, an object with less mass will have a greater acceleration.
What would happen to the acceleration if one person pushed two people in the swing why?
The acceleration of the swing would increase if one person pushed two people on it because the combined mass of the two people would be greater than just one person, requiring more force to achieve the same acceleration. Increased force would result in greater acceleration.
Which would fall with greater acceleration in a vacuum a leaf or a stone?
Assuming by 'fall' we mean undergo the effects of gravity. If the two objects are falling toward the same large mass (ie falling towards Earth) then they would both accelerate at the same rate. This rate happens to be about 9.8 meters per second squared. It is the acceleration due to gravity on earth.
When you push a volleyball and a ball on with the same force which would have the greater acceleration?
The volleyball would have a greater acceleration because it has less mass compared to a basketball. According to Newton's second law of motion (F=ma), the acceleration of an object is inversely proportional to its mass when the force is constant.
How would the acceleration of the right sled change up if the force were larger?
If the force on the right sled were larger, its acceleration would increase. This is because acceleration is directly proportional to force according to Newton's second law of motion. The larger force would result in a greater acceleration of the sled.
If you pushed a volleyball and a balloon with the same force which would have the greater acceleration?
The balloon would have a greater acceleration because it has less mass compared to the volleyball. According to Newton's second law (F = ma), with the same force applied, an object with less mass will have a greater acceleration.
Which would have greater acceleration if the same force was applied to a Semi Truck or a Toyota?
The Toyota would have more acceleration a= F/m if the mass of the of the Semi Truck is greater than the mass of the Toyota.
What would happen to the acceleration if one person pushed two people in the swing why?
The acceleration of the swing would increase if one person pushed two people on it because the combined mass of the two people would be greater than just one person, requiring more force to achieve the same acceleration. Increased force would result in greater acceleration.
Which would fall with greater acceleration in a vacuum a leaf or a stone?
Assuming by 'fall' we mean undergo the effects of gravity. If the two objects are falling toward the same large mass (ie falling towards Earth) then they would both accelerate at the same rate. This rate happens to be about 9.8 meters per second squared. It is the acceleration due to gravity on earth.
When you push a volleyball and a ball on with the same force which would have the greater acceleration?
The volleyball would have a greater acceleration because it has less mass compared to a basketball. According to Newton's second law of motion (F=ma), the acceleration of an object is inversely proportional to its mass when the force is constant.
How would the acceleration of the right sled change up if the force were larger?
If the force on the right sled were larger, its acceleration would increase. This is because acceleration is directly proportional to force according to Newton's second law of motion. The larger force would result in a greater acceleration of the sled.
How could the acceleration of the person on the swing be increased?
The acceleration of the person on a swing can be increased by increasing the angle of release, as a greater angle results in a longer pendulum length and thus greater acceleration. Additionally, increasing the initial height from which the person is released can also lead to higher acceleration due to the increased potential energy. Finally, reducing air resistance by swinging in a more aerodynamic position can help increase acceleration.
When would acceleration increase the most?
Acceleration would increase the most when a force is applied in the direction of motion and there is little resistance or friction opposing the motion. This means that the object can gain speed more quickly as the force has a greater effect on its acceleration.
Why would a kilogramp stone have more stored energy than a 50-kilogram stone?
A kilogram stone would have more stored energy than a 50-kilogram stone if it is suspended at a greater height, as potential energy is directly proportional to both mass and height. Therefore, the kilogram stone at a greater height would have more gravitational potential energy stored in it compared to the heavier stone at a lower height.
How do you describe the combined variation of A equals F over M?
I'm not sure exactly what you're asking, but hopefully this answers your question. A=Acceleration F=Force M=Mass The acceleration of an object is dependent on the mass of the object and the force exerted on it. The greater the force is, the greater the acceleration. The greater the mass is, the lower the acceleration. The greater the mass of the object, the more force required to obtain the same acceleration. Examples: Let's say you have an object of mass 8. If you were to exert 16 force, then the acceleration would be 2, but if you exert 4 force, the acceleration is 1/2. Similarly, if you exert 8 force on 2 objects, with masses 16 and 4, then the object with mass 16 would have an acceleration of 1/2, while the object with a mass of 4 would have an acceleration of 2. Hopefully this helped, sorry if it wasn't what you were asking. Also, I think this should be in physics/science, not algebra.
What does constant acceleration of a velocity time graph look like?
A constant acceleration on a velocity-time graph would appear as a straight line with a non-zero slope. The slope of the line represents the acceleration, with a steeper slope indicating a greater acceleration.
How would using more force change the acceleration of the discus?
Using more force would likely increase the acceleration of the discus, as force and acceleration are directly proportional according to Newton's second law of motion. This means that a stronger force applied to the discus would result in a greater acceleration.
