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If a man weighs 843.2 N on Earth what would he weigh on Jupiter where the acceleration due to gravity is 26.9 meter per second square?
If he weighs 843.2N then to get the mass we simply divide it by ten because acceleration due to gravity on earth is 10 m/s2. So the man will have a mass of 84.32 Kg. Using the equation F=ma, we shall calculate his weight, by simply multiplying 84.32 by 26.9. So the man will weigh 2268.208N, and his mass shall still remain constant.
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Why do you not weigh 318 times more on Jupiter but instead weigh 2.53 times More than what you weigh on earth?
The reason you do not weigh 318 times more on Jupiter is due to the difference in gravitational acceleration between Jupiter and Earth. Jupiter's gravitational acceleration is approximately 24.79 m/s^2, which is about 2.53 times greater than Earth's gravitational acceleration of 9.81 m/s^2. Weight is a measure of the force of gravity acting on an object's mass, so on Jupiter, with its higher gravitational acceleration, you would weigh approximately 2.53 times more than on Earth.
What is the weight of earth's gravity?
The use of the word "weight" is inappropriate in this context. Near the surface, Earth's gravity is 9.8 N / kg, meaning that every kilogram weights 9.8 Newton. This can also be expressed as the equivalent 9.8 meters / second square, i.e., that is the acceleration given by Earth to any object, if air resistance can be neglected.
How does acceleration due to gravity changes with altitude?
The acceleration of gravity ... on or near the Earth, for example ... is inversely proportional to the square of the distance from the center of the Earth. So it diminishes as you rise from the surface. When you have ascended to an altitude of one Earth radius ... about 4,000 miles ... your distance from the center is then two Earth radii, so the acceleration of gravity has shrunk to 1/4 of its value on the surface.
What would be the acceleration due to gravity of a planet that has 9.3 m earth and 4 r earth?
The acceleration due to gravity is proportional to mass and inversely proportionalto the square of distance. So, the acceleration of gravity on the surface of sucha planet, compared to that on the surface of the Earth, would be(Agrav on Earth) x (9.3/16) = 5.7 meters (18.7 feet) per second2 (rounded)
What is the gravity level on earth?
== Answer 1 == Put simply, it keeps everything in place. Without gravity,water, people, animals, and everything not attracted towards Earth & would drift off into space. '''Answer 2''' 9.9 m/s2 at sea level
What is the value in meters per second squared of the acceleration of gravity in a decimal?
The acceleration of gravity is approximately 9.81 meters per second squared.
How do you Calculate G forces with only Acceleration given?
You divide the given acceleration by the standard acceleration due to Earth's gravity. If the acceleration is in meters per second square, you divide by 9.8.You divide the given acceleration by the standard acceleration due to Earth's gravity. If the acceleration is in meters per second square, you divide by 9.8.You divide the given acceleration by the standard acceleration due to Earth's gravity. If the acceleration is in meters per second square, you divide by 9.8.You divide the given acceleration by the standard acceleration due to Earth's gravity. If the acceleration is in meters per second square, you divide by 9.8.
What the value of acceleration due to gravity of a falling object?
Near Earth, the acceleration due to gravity is approximately 9.8 meters per square second. It varies slightly from place to place, though.
What is acceleration due to gravity on Jupiter?
We can calculate the gravity on any planet or star by using this formula g = GM/r2 where M is mass of the planet or star G is universal gravitational constant g is acceleration due to gravity & r is the radius of the planet or star. Mass of Jupiter is 1.9 X 1027 kg Radius of Jupiter is 7 x 107 m Putting the values in formula we get g = (6.673 x 10-11) x (1.9 x 1027)/(7 x 107)2 = 26m/s2
What is the metric unit for acceleration?
Acceleration is the change in velocity over time.In SI units, acceleration is measured in metres per second squared (m/s2).g is the symbol for the average acceleration produced by gravity at the Earth's surface.The actual acceleration of gravity varies from place to place, depending on latitude, altitude, and local geology.The standard acceleration of gravity g is defined to be exactly 9.80665 meters per square second (m/s2).That is about 32.17405 feet per second squared.
What will be the acceleration due to gravity or its surface when earth contracts half of its present size without change its mass?
The current acceleration due to gravity is 32 feet per second per second, or 9.8 meters per second per second. The "inverse square" equations for gravity and distance indicate that if the mass remains constant while the radius is cut in half, the force of gravity would increase by a factor of four. So the new acceleration due to gravity would be 128 feet per second per second, or 39.2 meters per second per second.
What is the answer to this Freely falling bodies undergo what acceleration?
Freely falling bodies undergo acceleration due to gravity, which is approximately 9.81 m/s^2 on Earth. This acceleration causes the speed of the falling object to increase as it falls towards the ground.
What is the accepted value of the acceleration of gravity close to the surface of the earth?
The accepted value of the acceleration of gravity near the surface of the Earth is approximately 9.81 m/s^2.
What is the acceration due to gravity?
The acceleration due to gravity on the surface of Earth is approximately 9.81 m/s^2. This value represents the rate at which an object falls freely under the influence of gravity and is a constant value near the Earth's surface.
How is the acceleration of falling obkects affected by gravity?
Gravity itself is an acceleration. The standard equation for force is F=ma, where F is force, m is mass and a is acceleration. w=mg is the same equation applied to a particular type of force: weight. In w=mg, w is weight, m is mass and g is gravity, or the acceleration due to gravity if you prefer. The value of g for ALL objects near Earth's surface is 9.8 meters per square second.
What is the speed of fall on Earth vs on Moon?
The question is somewhat ambiguous. It could be asking either one of two different questions.Here are the answers to both:1). The moon does not fall to earth because it has tangential velocity which, when combined with the force of gravity toward the center of the earth, results in a stable Keplerian elliptical orbit.2). Apples do not fall to the moon because of the following facts:a). The apple's distance from the moon's center is roughly 60 times the apple's distance from the earth's center.b). The earth's mass is roughly 82 times the moon's mass.c). The result is that the gravitational force attracting the apple to the earth is roughly 295,000 times the force attracting it toward the moon.The same situation holds true for all objects on the earth. A car, attracted to the earthwith a force (weight) of 2000 pounds (1 ton), is also attracted to the moon by a forceof about 1/10th of an ounce. When it falls, it falls in the direction of the greater force.
What is the rate at which objects are pulled down due to gravity?
The speed will not be constant. If air resistance is not significant, the speed of an object will increase about 9.8 meters per second every second. This is often expressed as an acceleration of 9.8 meters per square second.
