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82 cubic cm 1 ml is equa to 82 cubic cm
82 ml=82 cm3
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∙ 13y ago
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Why does a heavy steel ship float but a small steel ball bearing sink?
A heavy steel ship can float because it is designed in a way that allows it to displace a large volume of water, which creates an upward buoyant force greater than its weight. On the other hand, a small steel ball bearing sinks because it is not able to displace enough water to generate an upward buoyant force greater than its own weight. Therefore, the relative buoyant forces are different, resulting in the ship floating and the ball bearing sinking.
How do you determine the density of a ball bearing?
You can determine the density of a ball bearing by measuring its mass using a scale and calculating its volume using a water displacement method or measuring its dimensions and calculating its volume. Once you have the mass and volume, divide the mass by the volume to get the density of the ball bearing.
What do you use to find the density of a ball- bearing?
To find the density of a ball bearing, you would typically measure its mass using a scale and then calculate its volume using a method like water displacement. Once you have both the mass and volume, you can divide the mass by the volume to find the density of the ball bearing.
What method do I do used to determine the volume of a steel ball bearing?
You can determine the volume of a steel ball bearing by using the formula for the volume of a sphere, V = (4/3) * π * r^3, where r is the radius of the ball bearing. Measure the diameter of the ball bearing and divide it by 2 to calculate the radius, then plug it into the formula to find the volume.
What happens when you push a ball into water?
When you push a ball into water, it displaces the water around it. The ball experiences an upwards buoyant force due to the water it displaces, causing it to partially float. The deeper you push the ball into the water, the greater the buoyant force acting on it.
Jason uses displacement method to determine the volume of a ball bearing if the ball bearing displaces 82ml of water what is the volume of the ball bearing in cubic centimetres?
The volume of the ball bearing is 82 cubic centimeters because 1 ml is equal to 1 cubic centimeter.
Why does a heavy steel ship float but a small steel ball bearing sink?
A heavy steel ship can float because it is designed in a way that allows it to displace a large volume of water, which creates an upward buoyant force greater than its weight. On the other hand, a small steel ball bearing sinks because it is not able to displace enough water to generate an upward buoyant force greater than its own weight. Therefore, the relative buoyant forces are different, resulting in the ship floating and the ball bearing sinking.
How do you determine the density of a ball bearing?
You can determine the density of a ball bearing by measuring its mass using a scale and calculating its volume using a water displacement method or measuring its dimensions and calculating its volume. Once you have the mass and volume, divide the mass by the volume to get the density of the ball bearing.
What do you use to find the density of a ball- bearing?
To find the density of a ball bearing, you would typically measure its mass using a scale and then calculate its volume using a method like water displacement. Once you have both the mass and volume, you can divide the mass by the volume to find the density of the ball bearing.
What method do I do used to determine the volume of a steel ball bearing?
You can determine the volume of a steel ball bearing by using the formula for the volume of a sphere, V = (4/3) * π * r^3, where r is the radius of the ball bearing. Measure the diameter of the ball bearing and divide it by 2 to calculate the radius, then plug it into the formula to find the volume.
What happens when you push a ball into water?
When you push a ball into water, it displaces the water around it. The ball experiences an upwards buoyant force due to the water it displaces, causing it to partially float. The deeper you push the ball into the water, the greater the buoyant force acting on it.
How would you find the volume of a golf ball?
Put an exact amount of water in a measuring cup. Drop in a golf ball. The increase in water level equals the volume of the golf ball, assuming the ball doesn't float. For example, 200mL before ball. 280ml after ball dropped in. Therefore volume equals 40ml or 40 Cubic Centimeters.
How do you calculate the volume of a tennis ball?
To a first approximation, a tennis ball is a sphere. The volume of a sphere is V = 4/3 π r3, where r is the radius of the sphere. So measure the diameter of the tennis ball, divide by 2 to get the radius, and then apply the formula above. You could also measure the volume of a tennis ball by measuring the volume of water that it displaces.
What happens when a ball is immersed in water?
When a ball is immersed in water, it displaces water volume equal to its own volume, causing the water level to rise. The buoyant force acting on the ball counteracts the force of gravity, making the ball feel lighter or weightless in the water.
When a ball is immersed in water it displaces 36 pi cubic centimeters of water what is the radius of the ball?
The volume of the ball can be given by the equation V = (4/3) * pi * r^3, where r is the radius. The displacement of 36 pi cubic centimeters of water is equal to the volume of the ball, so 36 pi = (4/3) * pi * r^3. Solving for r gives a radius of 3 centimeters.
A ball weighing 30N displaces an amount of water weighing 30N?
When a ball weighing 30N displaces an amount of water weighing 30N, it means the ball experiences a buoyant force equal to its weight, allowing it to float in the water without sinking. This occurs when an object's weight is balanced by the upward force exerted by the fluid it displaces, following Archimedes' principle.
How can you find a tiny ball bearing's volume if you have ten of the same type a measuring cylinder and some water?
Is this experiment assuming you have to use all of the bearings or can you use them individually? If you use them individually, fill up the water to a predetermined level and take note of the volume. Then, drop in a single bearing and measure the new volume of the cylinder. Subtract the second measure from the first measure, and that is the measurement of a single ball bearing. If you have to use all 10 at once, do the same thing but divide the final sum by 10.
