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What else can I help you with?
What is the relation between mass and acceleration when you keep the force constant?
For a constant external force applied on an object, the more massive the object is the less its acceleration. That is , mass and acceleration are inversely proportional: as one increases, the other decreases. Newton's Second Law of Motion The net external force on a body is equal to the product of the body's mass and acceleration. Fnet =mass* acceleration This law shows the inverse relationship between mass and acceleration.
What numbers would you have to have for mass and force to keep the greatest acceleration?
To maintain acceleration, both mass and force must remain unchanged. Decreasing mass and/or increasing force will increase acceleration.
How could you keep an object acceleration the same if the force acting on object were doubled?
force = mass * acceleration if force is doubled, mass needs to be doubled to keep the same acceleration example: force = 6 mass = 2 acceleration = 3 6 = 2 * 3 12 = m * 3 12/3 = m 4 = mass
How can you increase acceleration in reference to mass and force?
By looking at the equation F=ma we have two ways to increase acceleration. If we keep the mass constant and increase the force applied then the acceleration of the object will increase. If we keep the force constant and use a smaller mass then the mass will experience a greater acceleration than a greater mass.
How much force is needed to keep a 2kg object moving?
No force is needed to keep an object moving. An object with no forces on it keeps moving at a constant speed in a straight line. If there is any force acting on it to make it slow down, then you need just enough force to cancel the first one, in order to keep it moving.
How is acceleration affected if you apply the same force to two objects of different masses?
F=M(A), you can simply derive a formula by solving for A. So devide F by M and you get A=F/M. Then you can ask yourself, if when you increase of decrease mass what will happen to acceleration. assuming the unbalanced force is constant. soo when mass increases acceleration decreases. and when you take away mass from a body, then you can say that acceleration increases. You must assume that the force is constant. :D
What happens if you double the mass being accelerated?
I assume the question relates to NEwton's Second Law. Look at this law (F=ma), and solve for F (force) or for a (acceleration), depending on what you want to keep constant. In this case, if you want to keep the acceleration unchanged, you'll need twice the force. On the other hand, if you want to keep the force unchanged, you'll get only 1/2 the acceleration.
What happens to force to keep mass the same?
If the mass of an object stays the same, the force applied directly affects its acceleration according to Newton's second law (F = ma). Increasing the force increases the acceleration, while decreasing the force reduces the acceleration. If the force remains constant, the acceleration also stays constant.
When you double the force acting on an object and keep the mass of the cart constant the acceleration is?
Doubled. According to Newton's second law of motion, acceleration is directly proportional to the net force acting on an object when mass is constant. Therefore, doubling the force will lead to a doubling of acceleration.
What are some common centripetal acceleration problems encountered in physics?
Common centripetal acceleration problems encountered in physics include calculating the acceleration of an object moving in a circular path, determining the force required to keep an object in circular motion, and analyzing the relationship between speed, radius, and acceleration in circular motion.
What is the center seeking force related to acceleration called?
The center-seeking force related to acceleration is called centripetal force. It acts inwards towards the center of rotation and is necessary to keep an object moving in a circular path.
What will happened to the acceleration of an object if you double both the mass and the unbalanced force acting on it?
If both the mass and the net force on an object are doubled, then the object's acceleration will not change.
