0
What else can I help you with?
What is heavier an object weighing 67 ounces or an object weighing 4 pounds?
To compare the weights of the two objects, we need to convert both measurements to the same unit. Since 1 pound is equivalent to 16 ounces, the object weighing 4 pounds is equivalent to 64 ounces (4 pounds x 16 ounces/pound = 64 ounces). Therefore, the object weighing 4 pounds (64 ounces) is heavier than the object weighing 67 ounces.
What determines a scale factor?
A scale factor is determined by the ratio of the dimensions of a model or object to those of the actual object it represents. It can be influenced by the intended purpose of the model, the level of detail required, and practical considerations such as space and materials. In mathematical terms, it's calculated by dividing the size of the model by the size of the real object. Ultimately, the scale factor allows for accurate representation and proportionality between different sizes.
How do you measure the volume of an object in cubic centimeters?
1). Measure the volume in any unit you're comfortable with. 2). Convert that unit to cubic centimeters, using the appropriate conversion factor.
What is the size of an object in Classical physics?
Determined.
What is the device comparing the mass of an object to a known mass?
The device used for comparing the mass of an object to a known mass is a double pan balance, or a balance scale. This is a type of weighing scale where you put weights on one pan and the substance you are weighing on the other.
How can the mass of an object be determined by weighing the object and using a conversion factor?
The mass of an object can be determined by weighing it using a scale and then using a conversion factor to convert the weight measurement to mass. This conversion factor is usually the acceleration due to gravity (9.81 m/s^2 on Earth) which relates the force of gravity acting on the object (weight) to its mass.
Steps for weighing an object?
Obtain an appropriate weighing device. Make sure the device is calibrated properly. Perform the weighing by placing the object on top of the weighing device.
What is heavier an object weighing 0.92 ounces or an object weighing 7 pounds?
7 pounds
What size is an object if field of view is 4.5mm?
The object size will depend on the magnification of the viewing system. If the magnification is known, the object size can be determined by multiplying the field of view by the magnification factor.
What does mass mean in weighing?
The weight is the mass multiplied by the acceleration of gravity. When weighing an object by a balance the acceleration of gravity is on both sides of weighing and hence canceling its effect and hence you get the object mass (not the weight)..
What can the mass of an object be changed to?
An object's mass (m) can be changed into energy (e). Albert Einstein gave us the conversion factor - the square of the speed of light (c2). E = mc2
What is the principle of conversion of an electric kettle?
[object Object]
What is heavier an object weighing 67 ounces or an object weighing 4 pounds?
To compare the weights of the two objects, we need to convert both measurements to the same unit. Since 1 pound is equivalent to 16 ounces, the object weighing 4 pounds is equivalent to 64 ounces (4 pounds x 16 ounces/pound = 64 ounces). Therefore, the object weighing 4 pounds (64 ounces) is heavier than the object weighing 67 ounces.
How is a balance used?
A balance is used by weighing and object by another.
How is balance is used?
A balance is used by weighing and object by another.
What object should you use for weighing food?
You use the scales.
If a object weighing 50 n displaces a volume of water weighing 10 n what is the buoyant force on the object?
The buoyant force on an object is equal to the weight of the fluid it displaces. In this case, the object displaces a volume of water weighing 10 N, so the buoyant force acting on the object is 10 N. This force acts upward, countering the weight of the object, which is 50 N. Thus, the object will sink since its weight is greater than the buoyant force.
