0
Mass is directly proportional to the amount of kinetic energy an object posses according to this formula.
Ek= 1/2mv2.
There are two factors, which can alter the amount of kinetic energy.
1. The velocity of an object, how much momentum does the object carry.
2. The mass, small or big.
if an object with mass of 5kg travelling at 7m/s has an overall kinetic energy of 123j. directly if an object weighing twice to have the same kinetic energy, its mass should be 4.959kg.
you can get this using v2=Ek/0.5m.
The kinetic energy of an object is directly proportional to its mass - meaning that the higher the mass of an object, the greater its kinetic energy, given the same velocity. This relationship is described by the formula: kinetic energy = 0.5 x mass x velocity^2.
Explanation 1: Informally, you might notice that a "heavy" object hits normally hits you harder than a "light" object - it will hurt more. That reflects the fact that it has more kinetic energy.
Explanation 2: For example, imagine an object of 1 kg, moving at a certain speed. It has a certain kinetic energy. A second object, also with 1 kg, moves at the same speed (alongside the first one). You would expect it to have the same kinetic energy as the first one (and it does, according to physics). The combined energy of the two can be expected to be the sum of the energy of the individual objects. If they happen to stick together, and they continue moving at the same speed, there is no particular reason for the kinetic energy to suddenly increase - or decrease. Thus, the combined object can be expected to have twice the kinetic energy of the individual objects.
Explanation 1: Informally, you might notice that a "heavy" object hits normally hits you harder than a "light" object - it will hurt more. That reflects the fact that it has more kinetic energy.
Explanation 2: For example, imagine an object of 1 kg, moving at a certain speed. It has a certain kinetic energy. A second object, also with 1 kg, moves at the same speed (alongside the first one). You would expect it to have the same kinetic energy as the first one (and it does, according to physics). The combined energy of the two can be expected to be the sum of the energy of the individual objects. If they happen to stick together, and they continue moving at the same speed, there is no particular reason for the kinetic energy to suddenly increase - or decrease. Thus, the combined object can be expected to have twice the kinetic energy of the individual objects.
Explanation 1: Informally, you might notice that a "heavy" object hits normally hits you harder than a "light" object - it will hurt more. That reflects the fact that it has more kinetic energy.
Explanation 2: For example, imagine an object of 1 kg, moving at a certain speed. It has a certain kinetic energy. A second object, also with 1 kg, moves at the same speed (alongside the first one). You would expect it to have the same kinetic energy as the first one (and it does, according to physics). The combined energy of the two can be expected to be the sum of the energy of the individual objects. If they happen to stick together, and they continue moving at the same speed, there is no particular reason for the kinetic energy to suddenly increase - or decrease. Thus, the combined object can be expected to have twice the kinetic energy of the individual objects.
Explanation 1: Informally, you might notice that a "heavy" object hits normally hits you harder than a "light" object - it will hurt more. That reflects the fact that it has more kinetic energy.
Explanation 2: For example, imagine an object of 1 kg, moving at a certain speed. It has a certain kinetic energy. A second object, also with 1 kg, moves at the same speed (alongside the first one). You would expect it to have the same kinetic energy as the first one (and it does, according to physics). The combined energy of the two can be expected to be the sum of the energy of the individual objects. If they happen to stick together, and they continue moving at the same speed, there is no particular reason for the kinetic energy to suddenly increase - or decrease. Thus, the combined object can be expected to have twice the kinetic energy of the individual objects.
Kinetic Energy=1/2 * mass * velocity2
Thus Kinetic Energy is Directly Proportional to mass of a body.
Gravitational Potential Energy = mass * g * h
where g is the acceleration due to gravity and h is the height at which the body is placed.
Thus gravitational potential energy is also directly proportional to mass of the body.
But electrostatic or magnetic potential energy are independent of mass.
Explanation 1: Informally, you might notice that a "heavy" object hits normally hits you harder than a "light" object - it will hurt more. That reflects the fact that it has more kinetic energy.
Explanation 2: For example, imagine an object of 1 kg, moving at a certain speed. It has a certain kinetic energy. A second object, also with 1 kg, moves at the same speed (alongside the first one). You would expect it to have the same kinetic energy as the first one (and it does, according to physics). The combined energy of the two can be expected to be the sum of the energy of the individual objects. If they happen to stick together, and they continue moving at the same speed, there is no particular reason for the kinetic energy to suddenly increase - or decrease. Thus, the combined object can be expected to have twice the kinetic energy of the individual objects.
A more massive object will have greater KE than a less massive object, assuming they both have the same velocity. KE = 1/2mv2, where m is mass in kg, and v is velocity in m/s.
Add your answer:
Earn +20 pts
What 2 factors does the kinetic energy depend on?
It depends on mass and velocity. ans : it depends on the mass & speed of the moving object. no, it depends on the work & energy.
What influences the kinetic energy of an object?
The kinetic energy of an object is influenced by its mass and velocity. As an object's mass increases, its kinetic energy also increases. Similarly, greater velocity contributes to higher kinetic energy, as the energy of motion is directly proportional to the square of the object's velocity.
What factor are involved in determining the kinetic energy of a amoving object?
The kinetic energy of a moving object is determined by its mass and velocity. The formula for kinetic energy is KE = 0.5 * mass * velocity^2, where KE is kinetic energy, mass is the object's mass, and velocity is its speed.
How does the mass and speed of an object affect the kinetic energy?
Kinetic Energy is 1/2 mass x the square of speed (KE = 1/2 mv^2)
Kinetic energy is directly related to?
The mass and speed of an object. Kinetic energy increases with the square of an object's speed and is directly proportional to its mass.
What the 2 factors affect the kinetic energy of an object?
The two factors that affect the kinetic energy of an object are its mass and its velocity. The kinetic energy of an object increases with both mass and velocity.
What will affect kinetic energy?
Kinetic energy is affected by an object's mass and its velocity. The kinetic energy of an object increases as its mass or velocity increases. Conversely, kinetic energy decreases as mass or velocity decreases.
What two factors can affect an objects kinetic energy?
How fast an object is moving and its mass. Resources: Textbook
What are some factors that affect Kinetic Energy?
The main factors that affect kinetic energy are mass and velocity of an object. Increasing the mass of an object will increase its kinetic energy, while increasing the velocity of an object will increase its kinetic energy even more significantly. The formula for kinetic energy is KE = 0.5 * mass * velocity^2.
What two things effect kinetic energy?
The two things that affect kinetic energy are an object's mass and its velocity. Kinetic energy increases as either the mass or velocity of an object increases.
What two factors affect kinetic enrgy?
We generally think of kinetic energy as the energy of motion. And the two things that matter most as regards the energy of a moving object are its mass and its velocity.
What are the two factors that affect an objects kinetic energy?
The two factors that affect an object's kinetic energy are its mass and its velocity. Kinetic energy is directly proportional to both mass and velocity, meaning that an increase in either of these factors will result in an increase in the object's kinetic energy.
How does kinetic energy affect?
The cold slows down the molecules thus decreasing kinetic energy
What are factors that affect an object's kinetic energy?
The factors affecting kinetic energy are mass and velocity.
How does kinetic energy affect the motion?
Kinetic energy is the energy of an object in motion. As an object's kinetic energy increases, its speed and ability to do work also increase. Kinetic energy is directly related to an object's mass and its velocity.
How do the mass and speed of an object affect the kinectic energy?
The kinetic energy of an object is directly proportional to both its mass and the square of its speed. This means that an increase in either the mass or speed of an object will result in an increase in its kinetic energy.
How does the mass and speed affect the kinetic energy?
The kinetic energy of an object is directly proportional to both its mass and the square of its speed. Increasing either the mass or the speed of an object will increase its kinetic energy. This relationship is described by the equation: kinetic energy = 0.5 x mass x speed^2.
