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c. Not all carbon compounds are considered organic
The statement about carbon compounds and organic chemistry
a. All carbon compounds are considered organic
b. No carbon compounds are considered organic
c. Not all carbon compounds are considered organic
d. Only synthetic carbon compounds are organic
c. Elemental carbon gas and carbonic acids
The examples of carbon compounds NOT considered organic
a. Methane and ethanol
b. Glucose and amino acids
c. Elemental carbon gas and carbonic acids
d. Proteins and lipids
amorphous
crystalline
pure carbons classification (2)
d. Unorganized
The classification of amorphous pure carbon
a. Crystalline
b. Organized
c. Inorganic
d. Unorganized
amorphous carbon
a. Anthracite (hard)
b. Bituminous (soft)
The examples of amorphous carbon
(multiple answers)
a. Anthracite
b. Bituminous
c. Diamond
d. Graphite
d. Organized
The classification of crystalline pure carbon
a. Amorphous
b. Unorganized
c. Inorganic
d. Organized
a. Quartz
c. Diamond
The examples of crystalline carbon
(multiple answers)
a. Quartz
b. Bituminous
c. Diamond
d. Graphite
b. Respiratory stimulant
The pharmacological use of Carbon Dioxide
a. Respiratory depressant
b. Respiratory stimulant
a. Gray
The color of cylinder used for storing Carbon Dioxide
a. Gray
b. Blue
c. Yellow
d. Red
b. Dry ice
The solid form of Carbon Dioxide
a. Dry powder
b. Dry ice
c. Solid gas
d. Frozen CO₂ crystal
c. Freezing of warts
The use of dry ice (solid CO₂)
a. Respiratory stimulant
b. Anticoagulant
c. Freezing of warts
d. Laxative
c. Competes with O₂ in RBCs
The toxic effect of Carbon Monoxide
a. Competes with CO₂ in RBCs
b. Competes with N₂ in RBCs
c. Competes with O₂ in RBCs
d. Competes with H₂O in RBCs
c. 100% oxygen (hyperbaric)
The first treatment option for Carbon Monoxide poisoning
a. Artificial air (20% O₂ and 80% N₂)
b. Soda lime
c. 100% oxygen (hyperbaric)
d. Activated charcoal
a. Artificial air
The second treatment option for Carbon Monoxide poisoning
a. Artificial air
b. Soda lime
c. Activated charcoal
d. Hyperbaric
b. 20% O₂ and 80% He₂
Artificial air
a. 100% oxygen
b. 20% O₂ and 80% He₂
c. 20% O₂ and 20% He₂
d. 20% He₂ and 80% O₂
b. Electronics and semiconductors
The use of Silicon in technology
a. Fireworks and batteries
b. Electronics and semiconductors
c. Pipes and plumbing
d. Dental fillings and cosmetics
c. Silica (SiO₂)
The compound of Silicon that is the main component of glass
a. Silicon carbide
b. Silicon nitride
c. Silica
d. Silicon sulfide
d. Borosilicate glass
The Type I glass containing Silicon
a. Soda lime glass
b. General purpose soda lime
c. Treated soda lime
d. Borosilicate glass
c. Treated soda lime
The Type II glass containing Silicon
a. Soda lime glass
b. General purpose soda lime
c. Treated soda lime
d. Borosilicate glass
a. Soda lime glass
The Type III glass containing Silicon
a. Soda lime glass
b. General purpose soda lime
c. Treated soda lime
d. Borosilicate glass
b. General purpose soda lime
The Type NP glass containing Silicon
a. Soda lime glass
b. General purpose soda lime
c. Treated soda lime
d. Borosilicate glass
a. MnO
The additive to glass that masks the blue-green color of iron
a. MnO
b. K
c. Pb
d. Borate
d. Borate
The additive to glass that decreases the coefficient of expansion
a. MnO
b. K
c. Pb
d. Borate
b. K
The additive to glass that produces brown color
a. MnO
b. K
c. Pb
d. Borate
c. Pb
The additive to glass that increases the refractive index
a. MnO
b. K
c. Pb
d. Borate
d. Rare Earth elements
The additive to glass that produces polarization
a. K
b. Pb
c. MnO
d. Rare Earth elements
c. Diatomaceous earth
The alternative names of Celite or Kiesel gur
a. Diatomite and pumice
b. Volcanic silicates
c. Diatomaceous earth
d. Bentonite and clay
c. Kiesel gur
aka Celite
a. Diatomite and pumice
b. Volcanic silicates
c. Kiesel gur
d. Bentonite and clay
a. Abrasive — example toothpaste
The use of Celite (Diatomaceous earth)
a. Abrasive — example toothpaste
b. Adsorbent for diarrhea
c. Antiflatulent
d. Suspending agent
b. Polymeric dimethyl silicone
The full chemical name of Simethicone
a. Polymeric dimethyl carbonate
b. Polymeric dimethyl silicone
c. Polymeric diethyl silicone
d. Polymeric dimethyl sulfone
d. Antiflatulent
Kremil-S
The pharmacological use of Simethicone
a. Adsorbent
b. Abrasive
c. Suspending agent
d. Antiflatulent
c. Hydrated Mg silicate
The chemical composition of Talc or Soapstone
a. Native colloid Al silicate
b. Native hydrated Al silicate
c. Hydrated Mg silicate
d. Volcanic silicates
c. Hydrated Mg silicate (Talc or Soapstone)
Softest mineral
a. Native colloid Al silicate
b. Native hydrated Al silicate
c. Hydrated Mg silicate
d. Volcanic silicates
d. 1
The hardness level of Talc on the Mohs scale
a. 3
b. 5
c. 7
d. 1
d. Hardness of 1
The property of Talc that makes it the softest mineral
a. Hardness of 5
b. Hardness of 3
c. Hardness of 7
d. Hardness of 1
a. Dusting powder and clarifying agent
The use of Talc in cosmetics
a. Dusting powder and clarifying agent
b. Adsorbent for diarrhea
c. Antiflatulent
d. Suspending agent
d. Asbestos
The dangerous form of Talc at a different particle size
a. Pumice
b. Celite
c. Bentonite
d. Asbestos
a. Native colloid Al silicate
The chemical composition of Bentonite or Soap clay
a. Native colloid Al silicate
b. Volcanic silicates
c. Hydrated Mg silicate
d. Native hydrated Al silicate
a. Soap clay
aka Bentonite
a. Soap clay
b. Talc
c. Kaolin
d. Pumice
d. Suspending agent
The pharmacological use of Bentonite
a. Antiflatulent
b. Abrasive
c. Adsorbent for diarrhea
d. Suspending agent
d. Native hydrated Al silicate
The chemical composition of Kaolin or China clay
a. Hydrated Mg silicate
b. Native colloid Al silicate
c. Volcanic silicates
d. Native hydrated Al silicate
c. Kaolin
aka China clay
a. Soap clay
b. Talc
c. Kaolin
d. Pumice
a. Adsorbent for diarrhea (kaopectate)
The pharmacological use of Kaolin
a. Adsorbent for diarrhea
b. Antiflatulent
c. Abrasive
d. Suspending agent
c. Kaopectate
The brand name of Kaolin preparation for diarrhea
a. Kremil-S
b. Loperamide
c. Kaopectate
d. Milk of magnesia
d. Mixture of volcanic silicates
The chemical composition of Pumice
a. Native hydrated Al silicate
b. Native colloid Al silicate
c. Hydrated Mg silicate
d. Mixture of volcanic silicates
a. Abrasive for dead skin cells
The pharmacological use of Pumice
a. Abrasive for dead skin cells
b. Adsorbent for diarrhea
c. Antiflatulent
d. Suspending agent
a. Eka-silicon
The alternative name of Germanium
a. Eka-silicon
b. Eka-tin
c. Eka-lead
d. Eka-carbon
c. Semiconductors and optic fibers
The uses of Germanium in technology
a. Fireworks and batteries
b. Pipes and plumbing
c. Semiconductors and optic fibers
d. Dental fillings and cosmetics
a. Pioneer in revolutionizing electronics industry
The significance of Germanium in history
a. Pioneer in revolutionizing electronics industry
b. First radioactive element discovered
c. Lightest structural metal
d. Most abundant element in universe
c. Main component of several alloys
The primary use of Tin in industry
a. Semiconductors
b. Fireworks
c. Main component of several alloys
d. Plumbing
a. Tin
Stannum
a. Tin
b. Germanium
c. Lead
d. Flevorium
d. Solder
The Tin alloy used in joining pipes
a. Pewter
b. Babbit
c. Bronze
d. Solder
c. Pewter
The Tin alloy used for decorative materials
a. Solder
b. Babbit
c. Pewter
d. Bronze
b. Babbit
The Tin alloy that is a component of bearing
a. Solder
b. Babbit
c. Pewter
d. Bronze
c. To prevent erosion
The use of Tin as a coating in steel
a. To increase conductivity
b. To increase weight
c. To prevent erosion
d. To increase hardness
b. Dental cavities prevention
The dental use of Stannous Fluoride (Tin compound)
a. Whitening agent
b. Dental cavities prevention
c. Adsorbent
d. Abrasive
c. Pipes (plumbing)
The historical use of Lead in infrastructure
a. Semiconductors
b. Fireworks
c. Pipes
d. Dental fillings
a. Bullets and some batteries
The current uses of Lead
a. Bullets and some batteries
b. Pipes and plumbing
c. Semiconductors and optic fibers
d. Dental fillings and cosmetics
c. Toxicity
The reason Lead was discontinued in cosmetics and currencies
a. Too expensive
b. Not effective
c. Toxicity
d. Unstable compound
a. Ore for lead extraction
The common name of Lead Sulfide (Galena)
a. Ore for lead extraction
b. Goulard's extract
c. White pigment
d. Sugar of lead
a. Galena
aka Lead Sulfide
a. Galena
b. Litharge
c. Goulard’s extract
d. Sugar of lead
b. White pigment
The use of Lead Monoxide (Litharge)
a. Astringent
b. White pigment
c. Ore for lead extraction
d. Wine sweetener
c. Goulard’s extract
aka Lead Subacetate
a. Galena
b. Litharge
c. Goulard’s extract
d. Sugar of lead
b. Litharge
aka Lead Monoxide
a. Galena
b. Litharge
c. Goulard’s extract
d. Sugar of lead
c. Astringent
The pharmacological use of Lead Subacetate (Goulard's extract)
a. Laxative
b. Antacid
c. Astringent
d. Anticoagulant
d. Sugar of lead
The common name of Lead Acetate
a. Goulard's extract
b. Galena
c. Litharge
d. Sugar of lead
c. Wine sweetener
The historical use of Lead Acetate
a. Astringent
b. White pigment
c. Wine sweetener
d. Ore for lead extraction
c. Testing for sulfur — black precipitate
The analytical use of Lead Acetate (Sugar of lead)
a. Testing for aldehydes
b. Testing for ketones
c. Testing for sulfur
d. Testing for halogens
a. black precipitate
Lead Acetate test for sulfur positive result
a. black precipitate
b. orange precipitate
c. yellow precipitate
d. white precipitate
d. Fl
The element symbol of Flerovium
a. Fe
b. Fr
c. Fm
d. Fl