.47 watt
meters, seconds, meters/second, liters, newtons
That depends on the amount of gravity, of course. Weight = mass x gravity. Near the Earth's surface, the value for gravity is approximately 9.8 (meters per square seconds).That depends on the amount of gravity, of course. Weight = mass x gravity. Near the Earth's surface, the value for gravity is approximately 9.8 (meters per square seconds).That depends on the amount of gravity, of course. Weight = mass x gravity. Near the Earth's surface, the value for gravity is approximately 9.8 (meters per square seconds).That depends on the amount of gravity, of course. Weight = mass x gravity. Near the Earth's surface, the value for gravity is approximately 9.8 (meters per square seconds).
This is not a question. It is a statement with a question mark at the end of it, therefore it can never be answered.
.32kgm/s
Using p=mv. p: momentum (kg ms^-1) m: mass (kg) v: velocity (ms^1) p = (25)(4) = 100 kg ms^-1
The mass of an object does not change based on its location, so the mass of 25 kg on the moon would still be 25 kg. However, the weight of the object (the force of gravity acting on it) would be less on the moon compared to Earth due to the moon's weaker gravity.
two watts a second
Your mass remains the same regardless of where you are in the universe. So, if you weigh 25kg on Earth, you would still weigh 25kg in space. Weight is a measure of the force of gravity acting on an object, while mass is a measure of the amount of matter in an object.
meters, seconds, meters/second, liters, newtons
The answer is 55.115 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.
To calculate the weight of the mass, you can use the formula: Power = Force x Velocity. Given the power (726 watts) and distance (36 meters), you can find the force. Then, divide the force by acceleration due to gravity (9.8 m/s^2) to find the weight in Newtons.
25kg
To convert the mass of a 25kg object to weight, you need to multiply it by the acceleration due to gravity (9.81 m/s^2). Weight = Mass x Acceleration due to gravity Weight = 25kg x 9.81 m/s^2 Weight = 245.25 N
Length (meters) Mass (kilograms) Time (seconds)
That depends on the amount of gravity, of course. Weight = mass x gravity. Near the Earth's surface, the value for gravity is approximately 9.8 (meters per square seconds).That depends on the amount of gravity, of course. Weight = mass x gravity. Near the Earth's surface, the value for gravity is approximately 9.8 (meters per square seconds).That depends on the amount of gravity, of course. Weight = mass x gravity. Near the Earth's surface, the value for gravity is approximately 9.8 (meters per square seconds).That depends on the amount of gravity, of course. Weight = mass x gravity. Near the Earth's surface, the value for gravity is approximately 9.8 (meters per square seconds).
The force needed to accelerate an object is given by the formula: force = mass x acceleration. For the bowling bowl with a mass of 25kg and acceleration of 2m/s^2, the force required would be 50 Newtons.
480 000 J