Weight.
The answer is 562.178 lbs (approx.). Kilogram is the SI unit of mass and pound is an imperial unit of mass. To convert from kg to pound, multiply the kg unit by 2.20462.
Well, first you would have to find the object's mass and weight. Since the gravitational force on Jupiter is approximately 2.3 times the gravitational force, you would have to multiply the mass times 2.3 and the weight times 2.3.
Mass doesn't change. Mass the is substance of an object, moving it around won't affect how much mass it has, only adding or subtracting from the object would affect the quantity of mass. The weight would change because gravity is inversely proportional to distance but not the mass.
Your mass increases on Jupiter because of Jupiter's greater (stronger) gravitational pull.
Yes, an object's mass would be the same on Jupiter as it is on Earth because an object's mass remains constant regardless of the gravitational pull of the planet. However, an object's weight would be different on Jupiter due to the stronger gravitational pull compared to Earth.
The motion of the object might slow down or just change itself object would resist moving or keep moving. An object can have static friction, sliding friction, or rolling friction.
Even on Jupiter, or in the vicinity of Jupiter, the sun is still the brightest object in the sky. The brightest planet would be Saturn.
A balanced force will not cause a moving object to change its constant speed. It's an unbalanced force that would either speed up or slow down the moving object.
The answer is 562.178 lbs (approx.). Kilogram is the SI unit of mass and pound is an imperial unit of mass. To convert from kg to pound, multiply the kg unit by 2.20462.
When the forces on an object add up to zero, the object's acceleration is zero. Thatmeans the speed or direction of its motion doesn't change. It does not mean thatthe object isn't moving. A moving object would just keep moving at a constantspeed in a straight line.
Its speed of motion, or its direction of motion, or both, would change. In general, the change would be described as 'acceleration'.
Its speed of motion, or its direction of motion, or both, would change. In general, the change would be described as 'acceleration'.
net force
Any force will change the rate and/or the direction or an object, whether or not it is (initially) in motion.The only exceptions would be if there is something (like a surface supporting it) keeping the object from moving in the direction of the force, or if the object is initially not moving, and the force in not enough to overcome friction.
The object would be moving.
In order for an object to travel with constant velocity the sum of forces acting on it must be zero
If there is no friction, a moving object would continue moving at a constant velocity in a straight line unless acted upon by an external force. Without friction to oppose its motion, the object would not come to a stop on its own.