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If the final velocity will be less than initial velocity the object is increasing speed or decreasing speed?
If the final velocity is less than the initial velocity, the object is decreasing speed. The object has slowed down or its speed has decreased compared to when it started.
What is the maximum achievable speed of an object in subluminal speed?
The maximum achievable speed of an object in subluminal speed is less than the speed of light, which is approximately 299,792 kilometers per second in a vacuum.
Suppose object A (2 kg) is at rest and object B (10 kg) runs into it with high speed. What is the likely result?
Object A will likely undergo a change in velocity due to the collision with object B. The resulting outcome will depend on factors such as the speed and mass of object B, the nature of the collision (elastic or inelastic), and whether any external forces are involved.
How can an object stay the same but weight less?
An object can maintain its physical dimensions but weigh less if its density decreases. This can be achieved by replacing some of its material with a lighter substance or by creating empty pockets within the object. Additionally, if the object is in a location with lower gravity or if the buoyant force acting on it increases, it may effectively weigh less.
Why would you weigh less on the moon but your mass stays the same?
You would weigh less on the moon because it has less gravity pulling on you compared to Earth. Weight is the measure of the gravitational force acting on an object, while mass is a measure of the amount of matter in an object, which remains constant regardless of location.
When an object is submerged will it weigh less or have less mass?
Objects under water seem to weigh less but they have the same mass as they would out of water.
If the final velocity will be less than initial velocity the object is increasing speed or decreasing speed?
If the final velocity is less than the initial velocity, the object is decreasing speed. The object has slowed down or its speed has decreased compared to when it started.
Would an object weight more or less on the moon and why?
An object would weigh less on the moon compared to Earth because the moon has less gravitational pull than Earth. Weight is a measure of the gravitational force acting on an object, so with less gravitational pull on the moon, the object would weigh less.
How does a knife decrease the force or the distance?
Because the size of the objects determine the speed and force of the object, the smaller the object, the higher the speed and the less force is applied whereas a larger object will apply more force and less speed.
If a car is traveling in a vacuum does it weigh less the faster it goes?
As an object accelerates toward the speed of light it's mass (and weight) increases, at the speed of light (c) the objects mass would be infinite, making it impossible for any object to accelerate to light speed. So, "no" an object does not weigh less by moving faster in a vacuum, the faster it goes the more it weighs and the slower time goes. The change in mass and time occurs because near light speed the variable "c" is more fixed and the remaining variables (time and mass) must change to maintain balance.
Why would you weigh less on a high mountain than at sea level?
The weight of an object is the force of gravity on the object's mass. At the top of a mountain, you are slightly farther from the center of the earth, and so the earth's gravity is very slightly weaker. Thus, you weigh a tiny, tiny bit less at the top of the mountain than at sea level.
What is the maximum achievable speed of an object in subluminal speed?
The maximum achievable speed of an object in subluminal speed is less than the speed of light, which is approximately 299,792 kilometers per second in a vacuum.
Suppose object A (2 kg) is at rest and object B (10 kg) runs into it with high speed. What is the likely result?
Object A will likely undergo a change in velocity due to the collision with object B. The resulting outcome will depend on factors such as the speed and mass of object B, the nature of the collision (elastic or inelastic), and whether any external forces are involved.
Would you weigh less on a high mountain peak than you would at sea level?
The weight of an object is the force of gravity on the object's mass. At the top of a mountain, you are slightly farther from the center of the earth, and so the earth's gravity is very slightly weaker. Thus, you weigh a tiny, tiny bit less at the top of the mountain than at sea level.
Why does a solid weigh less when frozen?
For an object that is already a solid the change in its temperature does not affect its weight by any noticeable amount. The only change would result from the volume decrease as the object contracts when cooled. By occupying less space, it would displace less air and that would decrease the buoyancy of the object. That, though, would cause the object to weigh (slightly) more.
How can an object stay the same but weight less?
An object can maintain its physical dimensions but weigh less if its density decreases. This can be achieved by replacing some of its material with a lighter substance or by creating empty pockets within the object. Additionally, if the object is in a location with lower gravity or if the buoyant force acting on it increases, it may effectively weigh less.
Why would you weigh less on the moon but your mass stays the same?
You would weigh less on the moon because it has less gravity pulling on you compared to Earth. Weight is the measure of the gravitational force acting on an object, while mass is a measure of the amount of matter in an object, which remains constant regardless of location.
