Answer:
3Mg + Fe₂O₃ → 3MgO + 2Fe.
Explanation:
3Mg + Fe₂O₃ → 3MgO + 2Fe.
That 3.0 mole of Mg react with 1.0 mole of Fe₂O₃ to produce 3.0 moles of MgO and 2.0 moles of Fe.
Mg (3), Fe (2), and O (3).
II. mm of Hg
III. L
I only
I and II
II only
II and III
2.)Decreasing the temperature of a gas will __________.
increase the collision rate between gas particles
decrease the collision rate between gas particles
decrease the amount of gas particles in the gas
not affect the collision rate between gas particles
3.)Which of the following pressures is equal to 2.0 atm?
202.6 Pa
202.6 kPa
202,600 kPa
202,600 Pa
4.)What is the correct calculation when converting 4.1 atmospheres to kilopascals?
5.)Decreasing the temperature of a gas decreases the pressure because __________.
the collision rate between gas particles increases
the collision rate between gas particles decreases
the volume of the gas increases
the amount of gas decreases
6.)Which of these is a unit of pressure?
I. kPa
II. torr
III. g
I only
I and II
II only
II and III
7.)How many millimeters of mercury is 2.64 atmospheres equivalent to?
2.01 x 103 mm Hg
3.47 x 10-3 mm Hg
2.88 x 102 mm Hg
2.64 mm Hg
8.)Which of these quantities are equal to 303,900 Pa? ( multiple answers)
303.9 atm
3.0 atm
44.1 psi
1520 mm Hg
Answer:
Explanation:
1 ) Which of these is a unit of pressure?
Answer:
Option B = I and II
Torr and mmHg both are units of pressure.
While litter (L) is unit of volume.
Torr:
Torr is the measure of pressure produced by one mmHg equal to the 1/760 of standard pressure used to the pressure of vacuum system.
Millimeter mercury mmHg:
It is the manometric pressure unit. It is defined as, the pressure exerted by column of mercury one millimeter high. it is represented by mmHg.
Torr to mmHg conversion:
Both are equal to each other.
1 torr = 1 mmHg
Torr to atm:
Torr is converted into atm by dividing the torr value 760.
mmHg to atm.
mmHg is converted into atm by dividing the torr value 760.
2) Decreasing the temperature of a gas will....
Answer:
option B = Decrease the collision rate between gas particles
when the temperature of gas is increased the average kinetic energy of gas molecules will increased and gas particles moves fast. Thus because of high velocity gas molecules colloid with each other and also with the wall of container. We can say that collision between gas molecules increased by increasing the temperature. The pressure will also goes to increase.
But when the temperature is decreased the kinetic energy of gas molecules goes to decrease and collision will also decreased because of smaller velocity of gas molecules.
3) Which of the following pressure is equal to 2.0 atm.
Answer:
B) 202.6 KPa
In order to convert the pascal to atm we will divide the given value by 101325.
In order to convert the KPa into atm we will divide the value by 101.325.
A) 202.6 pa
202.6/101325
0.002 atm
B) 202.6 KPa
202.6/101.325
2 atm
C) 202,600 kpa
202,600/101.325
1999.5 atm
D) 202,600 Pa
202,600/101325
1.9995 atm
The option b is correct because 202.6 Kpa is equal to 2.0 atm.
4) What is the correct calculation when converting the 4.1 atm to kilopascal?
Answer:
Kilopascal and atm both are units of pressure. They can be converted into one another.
KPa can be converted into atm by dividing the giving KPa value 101.325.
atm can be converted into KPa by multiplying the given atm value with 101.325.
For example:
4.1 atm × 101.325 kpa/ 1 atm
415.432 atm. kpa / 1atm
415.432 kpa
Kpa to atm:
415.432 kpa/101.325 kpa × 1 atm
4.1 × 1 atm
4.1 atm
5) Decreasing the temperature of gas decreases the pressure because
Answer:
option b= The collision rate between gas particles decreased.
when the temperature of gas is increased the average kinetic energy of gas molecules will increased and gas particles moves fast. Thus because of high velocity gas molecules colloid with each other and also with the wall of container. We can say that collision between gas molecules increased by increasing the temperature. The pressure will also goes to increase.
But when the temperature is decreased the kinetic energy of gas molecules goes to decrease and collision will also decreased because of smaller velocity of gas molecules. Thus slow moving particles exerted low pressure.
Temperature and pressure are also directly related to each other. When temperature is high pressure will also high and when temperature is low pressure will also low.
6) Which of these is a unit of pressure?
KPa
Torr
g
Answer:
option B = I and ii
Explanation:
Kpa and torr both are pressure units.
Gram (g) is the unit of mass.
Torr:
Torr is the measure of pressure produced by one mmHg equal to the 1/760 of standard pressure used to the pressure of vacuum system.
Kilopascal:
The kilopascal is the unit of pressure. It is represented by KPa.
it is the pressure generated by 10 g mass of substance on area of 1 cm².
There are 1000 pascal in one kilopasca.
one atm = 101.325 KPa
one atm = 101325 Pa
7) How many mmHg is 2.64 atmosphere equivalent to ?
2.01 × 10³ mmHg
3.47 × 10⁻³ mmHg
2.88 × 10² mmHg
2.64 mmHg
Answer:
A) 2.0× 10³ mmHg
Explanation:
Millimeter mercury mmHg:
It is the manometric pressure unit. It is defined as, the pressure exerted by column of mercury one millimeter high. it is represented by mmHg.
mmHg to atm.
mmHg is converted into atm by dividing the torr value 760.
atm to mmHg
atm is converted into mmHg by multiplying the given value with 760.
2.64 atm × 760 mmHg / 1 atm
2006.4 mmHg .atm /1 atm
2.0× 10³ mmHg .atm /1 atm
2.0× 10³ mmHg
8) Which of these quantities are equal to 303900 Pa?
303.9 atm
3.0 atm
44.1 psi
1520 mmHg
Answer:
option b = 3.0 atm
it is almost equal to 303,900 Pa but not exactly. because
3.0 atm = 303975 Pa
Explanation:
A) 1 atm = 101325 Pa
303.9 atm × 101325 Pa / 1 atm
30792667.5 Pa .atm / 1 atm
30792667.5 Pa
b) 3.0 atm
3.0 atm × 101325 Pa / 1 atm
303975 Pa .atm / 1 atm
303975 Pa
C) 44.1 Psi
44.1 × 6894.757
304058.8 Pa
D) 1520 mmHg
1520 × 133.322
202650 Pa
The answer is: the atom with more valence electrons are in the middle of a molecule and it form more bonds.
For example, molecule hydrogen cyanide (HCN).
Lewis structure for hydrogen cyanide is H:C:::N:
Hydrogen has valence one (I), it means it has one single bond and electron configuration like closest noble gas helium.
Carbon has valence four (IV), it has four bonds (one with hydrogen and three with nitrogen) and full octet.
Nitron has valence three (III), it has full octet and electron configuration like noble gas neon (Ne).
Hydrogen cyanide has linear shape (the bond angles of 180 degrees).
Answer: Ribosome
Explanation:
The protein formation inside the body takes place in the cell organelle named ribosome. Protein is a every essential component of the body.
It serves many functions in the body of all the eukaryotic organism. It is found on the body surface as the body guard to kill the invading pathogens, all the enzymes inside the body are protein.
The ribosomes inside the cell can be attached to the endoplasmic reticulum or can be found floating inside the cell.
The proteins are synthesized both by the floating and attached ribosomes. The proteins produced by the floating ribosomes are used inside the cell and the proteins made by rough Endoplasmic reticulum are most of the time sent outside the cell.
Answer:
B. ribosome
Explanation:
In the ribosomes, the codons get paired with anti codons to create a polypeptide or protein.
Answer: Lysosomes
Explanation: The lysosome is an organelle that contains digestive enzymes and acts as the organelle-recycling facility of an animal cell. It breaks down old and unnecessary structures so their molecules can be reused. Lysosomes are part of the endomembrane system, and some vesicles that leave the Golgi are bound for the lysosome.